Publications

	M. Skorobogatiy Nanostructured and Subwavelength Waveguides: fundamentals and applications (Wiley, 2012) 350p., 80 figs.
	M. Skorobogatiy, J. Yang Fundamentals of Photonic Crystal Guiding (Cambridge University Press, 2009) ISBN-10: 0521513286 ISBN-13: 978-0521513289 312p., 108 figs., 21 conceptual problems and solutions

1. Y. Cao, K. Nallapan, G. Xu, M. Skorobogatiy, “Resonant gas sensing in the terahertz spectral range using two-wire phase-shifted waveguide Bragg gratings,” Sensors, vol. 23, 8527 (2023) ; DOI: 10.3390/s23208527
   
2. A. Mandal, A. Morali, M. Skorobogatiy, and S. Bodkhe, “3D printing of Polyvinylidene Fluoride Based Piezoelectric sensors for Non-Invasive Continuous Blood Pressure Monitoring,” Advanced Engineering Materials, 2301292 (2023) ; DOI: 10.1002/adem.202301292
   Supplementary Materials
   
3. A. Morali, A. Mandal, M. Skorobogatiy, and S. Bodkhe, “Unleashing the piezoelectric potential of PVDF: a study on phase transformation from gamma to beta phase through thermal contact poling,” RSC Advances, vol. 13(44), pp. 31234-31242 (2023) ; DOI: 10.1039/D3RA05068H
   Supplementary Materials
   
4. V.A. Zhelnov, N.V. Chernomyrdin, G.M. Katyba, A.A. Gavdush, V.V. Bukin, S.V. Garnov, I.E. Spektor, V.N. Kurlov, M. Skorobogatiy, and K.I. Zaytsev, "Rutile hemisphere-based terahertz solid immersion microscopy with deeply sub-wavelength resolution," Advanced Optical Materials, 2300927 (2023) ; DOI: 10.1002/adom.202300927
   
5. Invited Perspective: G. Xu and M. Skorobogatiy, "3D printing technique and its application in the fabrication of THz fibers and waveguides," Journal of Applied Physics, vol. 133, 210901 (2023) ; DOI: 10.1063/5.0146054
   
6. G. Xu and M. Skorobogatiy, "Continuous Fabrication of Fibers via Annealing-Improved Infinity Additive Manufacturing Technique for THz Communications," Optics Express, vol. 13(8), pp. 12894-12911 (2023) ; DOI: 10.1364/OE.486400
   Supplementary Materials
   
7. V.E. Ulitko, G.R. Musina, V.M. Masalov, A.A. Gavdush, G.A. Emelchenko, V.V. Bukin, V.N. Kurlov, M. Skorobogatiy, G.M. Katyba, and K.I. Zaytsev, "Moisture adsorption by porous terahertz optical materials: A case study of artificial SiO2 opals," Optical Materials Express, vol. 13, pp. 1163-1176 (2023) ; DOI: 10.1364/OME.485646
   

1. V. Zhelnov, N. Chernomyrdin, G. Katyba, M. Skorobogatiy, K. Zaytsev, "Deeply subwavelength terahertz solid immersion microscopy using rutile optics," IEEE Int. Photonics Congress, ThA1.3 (2023)
   
2. Y. Cao, K. Nallappan, G. Xu, M. Skorobogatiy, "Phase-shifted two-wire waveguide Bragg gratings for high sensitivity gas detection in the terahertz spectral range," IEEE Int. Photonics Congress, ME4.5 (2023)
   
3. Tutorial: M. Skorobogatiy, S. Bodkhe, C.A.A. Orta, J. Berzowska, "The Journey of Smart Textiles: From Lab to Protoype to Markets" organized by the symposium: D3. Materials, Processing, Fabrication Techniques, and Applications of Wearables at the 31 International Materials Research Congress, Mexico (14 August 2023)
   
4. Y. Cao, K. Nallappan, G. Xu, and M. Skorobogatiy "Gas sensing using THz phase-shifted waveguide Bragg gratings based on 3D-printed two-wire plasmonic waveguides", Proc. SPIE 12532, Optical Waveguide and Laser Sensors II, 125320S (15 June 2023) ; DOI: 10.1117/12.2662592
   
5. Q. Chapdelaine, Y. Cao, K. Zaytsev, H. Guerboukha, and M. Skorobogatiy "Composite TiO2/polypropylene solid immersion lenses for super-resolution terahertz imaging," Proc. SPIE 12530, Advanced Optics for Imaging Applications: UV through LWIR VIII, 1253006 (14 June 2023) ; DOI: 10.1117/12.2663006
   
6. R. Henri, D. Ponomarev, M. Skorobogatiy, "Terahertz imaging spectroscopy using an 8×8 photoconductive antenna array," SPIE Defence + Commercial Sensing, Paper 12514-29 (2023)
   
7. G. Xu, K. Nallappan, Y. Cao and M. Skorobogatiy, "Infinity Additive Manufacturing of Polarization Maintaining Fibers for THz Communications," 2023 IEEE Radio and Wireless Symposium (RWS), USA, pp. 24-26 (2023) ; DOI: 10.1109/RWS55624.2023.10046329
   
8. K. Nallappan and M. Skorobogatiy, "Tunable Distributed Feedback Laser Based Frequency Hopping in Terahertz Communications," 100th ARFTG Microwave Measurement Conference (ARFTG), USA, pp. 1-4 (2023) ; DOI: 10.1109/ARFTG56062.2023.10148889
   

1. Special Issue of OPN, Optics in 2022: Y. Cao, K. Nallappan, H. Guerboukha, G. Xu and M. Skorobogatiy, "Versatile Reconfigurable Terahertz Plasmonic Circuits," Optics Photonics News, December Special Issue "Optics in 2022", p. 50 (2022)
   
2. M. Poulin and M. Skorobogatiy, "Spoof Surface Waves on Non Conducting Structured Interfaces," IEEE Transactions on Antenna & Propagation, vol. 70(11), pp. 10691-10705 (2022) ; DOI: 10.1109/TAP.2022.3208648
   
3. Invited Review: G. Xu and M. Skorobogatiy, "Wired THz Communications,"
   Journal of Infrared, Millimeter, and Terahertz Waves, vol. 43, pp. 728–778 (2022) ; DOI: 10.1007/s10762-022-00879-x
   
4. G.M. Katyba, M. Skorobogatiy, D.G. Melikyants, N.V. Chernomyrdin, A.N. Perov, E.V. Yakovlev, I.N. Dolganova, I.E. Spektor, V.V. Tuchin, V.N. Kurlov, and K.I. Zaytsev, "Superresolution imaging via diverging high-refractive-index optical fiber bundle," Physical Review Applied, vol. 18, 034069 (2022) ; DOI: 10.1103/PhysRevApplied.18.034069
   
5. Y. Cao, K. Nallapan, G. Xu and M. Skorobogatiy, "Add drop multiplexers for terahertz communications using two-wire waveguide based plasmonic circuits," Nature Communications, vol. 13, 4090 (2022) ; DOI: 10.1038/s41467-022-31590-z
   Supplementary Information
   
6. G. Xu, K. Nallapan, Y. Cao and M. Skorobogatiy, "Infinity Additive Manufacturing of Continuous Microstructured Fiber Links for THz Communications," Scientific Reports, vol. 12, 4551 (2022) ; DOI: 10.1038/s41598-022-08334-6
   Supplementary Information
   
7. K. Nallappan and M. Skorobogatiy "Photonics based frequency hopping spread spectrum system for secure terahertz communications,"
   Optics Express, vol. 30(15), pp. 27028-27047 (2022) ; DOI: 10.1364/OE.459939
   
8. Q. Chapdelaine, K. Nallappan, Y. Cao, H. Guerboukha, N. Chernomyrdin, K. Zaytsev, and M. Skorobogatiy "Fabrication and characterization of a composite TiO2-polypropylene high-refractive-index solid immersion lens for super-resolution THz imaging,"
   Optical Materials Express, vol. 12(8), pp. 3015-3031 (2022) ; DOI: 10.1364/OME.461756
   
9. N.V. Chernomyrdin, D.V. Lavrukhin, V.E. Ulitko, R.R. Galiev, A.A. Gavdush, V.B. Anzin, A.N. Perov, G.M. Katyba, V.V. Tuchin, M. Skorobogatiy, I.V. Reshetov, D.S. Ponomarev, and K.I. Zaytsev, "Continuously tunable middle-IR bandpass filters based on gradient metal-hole arrays for multispectral sensing and thermography,"
   Journal of Applied Physics, vol. 131, 123103 (2022) ; DOI: 10.1063/5.0079713
   
10. Invited Perspective: N.V. Chernomyrdin, M. Skorobogatiy, D.S. Ponomarev, V.V. Bukin, V.V. Tuchin, and K.I. Zaytsev, "Terahertz solid immersion microscopy: Recent achievements and challenges,"
    Appl. Phys. Lett., vol. 120, 110501 (2022) ; DOI: 10.1063/5.0085906
    

1. Keynote talk: M. Skorobogatiy, H. Guerboukha, K. Nallapan, K. Zaytsev, D. Ponomarev, R. Henry, Y. Cao, "Application of THz waves to imaging and sensing," The Intern. Conf. on the Industry-University-Research-Application of Safety and Emergency Management, Xi’an University of Sci. and Technology, China (November 19th, 2022)
   
2. Invited talk: M. Skorobogatiy, X. Lu, H. Qu, J.F. Gu, S. Gorgutsa, Y. Liu, A. Skorobogatiy, A. Skorobogatiy, "Compliant energy generation and storage for power-hungry wearables: perspectives and challenges," F1 Innovative Smart Materials by Soft Chemistry for Flexible/Wearable and Large-Area Electronics, XXX International Materials Research Congress - IMRC 2022
   
3. Keynote talk: M. Skorobogatiy, X. Lu, H. Qu, J.F. Gu, S. Gorgutsa, Y. Liu, A. Skorobogatiy, A. Skorobogatiy, J. Berzowska, K. Schicker, "Novel Materials and fabrication techniques for wearable energy generation and storage devices – from piezoelectric fibers to li-ion threads," Symposium of the Institute of Textile Science, Canada, 2022
   
4. Invited talk: H. Guerboukha, K. Nallappan, R. Henri, Y. Cao, D. Lavrukhin, A. Yachmenev, R. Khabibullin, D. Ponomarev, and M. Skorobogatiy, "Real-time terahertz Imaging: antenna arrays, spectral encoding, and super-resolution microscopy," Proc. SPIE. PC11975, Advances in Terahertz Biomedical Imaging and Spectroscopy (3 March 2022) ; DOI: 10.1117/12.2612076
   
5. Invited talk: K.I. Zaytsev, D. Ponomarev, and M. Skorobogatiy, "Front Matter: Volume 11975", Proc. SPIE 11975, Advances in Terahertz Biomedical Imaging and Spectroscopy, 1197501 (14 April 2022) ; DOI: 10.1117/12.2634786
   
6. Invited talk: Q. Chapdelaine, K. Nallappan, Y. Cao, H. Guerboukha, N. Chernomyrdin, K. Zaytsev, M. Skorobogatiy, G. Xu, "Fabrication and Characterization of High Permittivity Solid Immersion Lenses for Terahertz Microscopy," IEEE Summer Topicals Meeting Series, Advanced THz Imaging Techniques II, TuF2.2 (2022) DOI: 10.1109/SUM53465.2022.9858262
   
7. Invited talk: D. Ponomarev, K. Zaytsev, M. Skorobogatiy, R. Khabibullin, I. Glinskiy, T. Otsuji, "Optical-to-THz switches for pulse THz generation and detection," IEEE Summer Topicals Meeting Series, THz Photonics and Optoelectronics II, WF3.2 (2022) DOI: 10.1109/SUM53465.2022.9858202
   
8. Invited talk: H. Guerboukha, M. Skorobogatiy, D.M. Mittleman, "Localization in Wireless Terahertz Communications: An Imaging Problem and A Spectral Encoding Solution," IEEE Summer Topicals Meeting Series, Advanced THz Imaging Techniques II, TuF2.1 (2022) DOI: 10.1109/SUM53465.2022.9858308
   
9. Invited talk: N. Chernomyrdin, M. Skorobogatiy, K. Zaytsev, G. Xu, "Review and perspectives of THz solid immersion microscopy," IEEE Summer Topicals Meeting Series, Bio and Chemical THz Imaging I, MF3.3 (2022)
   

1. N.V. Chernomyrdin, M. Skorobogatiy, A.A. Gavdush, G.R. Musina, G.M. Katyba, G.A. Komandin, A.M. Khorokhorov, I.E. Spektor, V.V. Tuchin and K.I. Zaytsev, "Quantitative super-resolution solid immersion microscopy via refractive index profile reconstruction," Optica, vol. 8(11), pp. 1471-1480 (2021) ; DOI: 10.1364/OPTICA.439286
   Supplementary material
   
2. Review: O.P. Cherkasova, D.S. Serdyukov, E.F. Nemova, A.S. Ratushniak, A.S. Kucheryavenko, I.N. Dolganova, G. Xu, M. Skorobogatiy, I.V. Reshetov, P.S. Timashev, I.E. Spektor, K.I. Zaytsev, and V.V. Tuchin, "Cellular effects of terahertz waves," Journal of Biomedical Optics, vol. 26 (9), 090902 (2021) ; DOI: 10.1117/1.JBO.26.9.090902
   
3. R. Henri, K. Nallappan, D.S. Ponomarev, D.V. Lavrukhin, A.E. Yachmenev, R.A. Khabibullin, M. Skorobogatiy "Fabrication and Characterization of an 8 × 8 Terahertz Photoconductive Antenna Array for Spatially Resolved Time Domain Spectroscopy and Imaging Applications," IEEE Access, vol. 9, 117691 (2021)
   
4. A.S. Kucheryavenko, N.V. Chernomyrdin, A.A. Gavdush, A.I. Alekseeva, P.V. Nikitin, I.N. Dolganova, P.A. Karalkin, A.S. Khalansky, I.E. Spektor, M. Skorobogatiy, V.V. Tuchin, K.I. Zaytsev "Terahertz dielectric spectroscopy and solid immersion microscopy of ex vivo glioma model 101.8: brain tissue heterogeneity," Biomedical Optics Express, vol. 12 (8), pp. 5272-5289 (2021); DOI: 10.1364/BOE.432758
   
5. K.I. Zaytsev, V.N. Kurlov, M. Skorobogatiy, I.V. Reshetov, V.V. Tuchin "Special section guest editorial: Advances in terahertz biomedical science and applications," Journal of Biomedical Optics, vol. 26 (4), 043001 (2021); DOI: 10.1117/1.JBO.26.4.043001
   
6. V.E. Ulitko, G.M. Katyba, V.A. Zhelnov, I.M. Shmytko, G.A. Emelchenko, I.E. Spector, V.M. Masalov, V.N. Kurlov, K.I. Zaytsev, M. Skorobogatiy "Opal-based terahertz optical elements fabricated by self-assembly of porous SiO2 nanoparticles," Optics Express, vol. 29 (9), pp. 13764-13777 (2021)
   
7. V.A. Zhelnov, K.I. Zaytsev, A.S. Kucheryavenko, G.M. Katyba, I.N. Dolganova, D.S. Ponomarev, V.N. Kurlov, M. Skorobogatiy, N.V. Chernomyrdin, "Object-dependent spatial resolution of the reflection-mode terahertz solid immersion microscopy," Optics Express, vol. 29 (3), pp. 3553-3566 (2021)
   
8. Invited book chapter: K. Nallappan, H. Guerboukha, Y. Cao, G. Xu, C. Nerguizian, D.M. Mittleman, and M. Skorobogatiy, "Fiber-based THz Communication Links within THz Wireless Networks: Needs, Challenges and Perspectives," in the Next Generation Wireless Terahertz Communication Networks Editors: S. Ghafoor, M.H. Rehmani, and A. Davy (CRC Press, Taylor and Francis Group, USA, 2021)
   
9. Y. Cao, K. Nallappan, G. Xu, M. Skorobogatiy "Add drop multiplexers for terahertz communications using two-wire waveguide based plasmonic circuits," July (2021); arXiv:2107.14090
   
10. R. Henri, K. Nallappan, D.S. Ponomarev, D.V. Lavrukhin, A.E. Yachmenev, R.A. Khabibullin, M. Skorobogatiy "8 x 8 Terahertz Photoconductive Antenna Array and Parallelized Signal Acquisition System for Fast Spatially Resolved Time Domain Spectroscopy," June (2021); arXiv:2106.09457
    
11. G. Xu, K. Nallappan, Y. Cao, M. Skorobogatiy "Microstructured fiber links for THz communications and their fabrication using infinity printing," June (2021); arXiv:2106.04578
    
12. M. Poulin, M. Skorobogatiy, "Spoof Surface Waves on Non Conducting Structured Interfaces," April (2021); arXiv:2104.02062
    

1. K. Nallappan, M. Skorobogatiy, “Wired Channel Modeling for Frequency Hopping System in Secure Terahertz Communications,” IEEE Research and Applications of Photonics in Defense Conference (RAPID), USA, 2021; DOI: 10.1109/RAPID51799.2021.9521450
   
2. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian, M. Skorobogatiy, “Dielectric Fiber-assisted Terahertz Communication Links: Perspectives and Challenges for Onboard and Secure Communications,” IEEE Research and Applications of Photonics in Defense Conference (RAPID), USA, 2021; DOI: 10.1109/RAPID51799.2021.9521438
   
3. Y. Cao, K. Nallappan, H. Guerboukha, G. Xu, M. Skorobogatiy, "Additive manufacturing of reconfigurable two-wire plasmonic circuits for terahertz communications," IEEE Photonics Society Summer Topicals Meeting Series (SUM), 2021; DOI: 10.1109/SUM48717.2021.9505747
   
4. K. Nallappan, M. Skorobogatiy, “Comparison of Wired and Wireless Channel for Short Range Frequency Hopping Terahertz System,” IEEE Photonics Society Summer Topicals Meeting Series (SUM), 2021; DOI: 10.1109/SUM48717.2021.9505801
   
5. G. Xu, K. Nallappan, Y. Cao, and M. Skorobogatiy, “Continuous Fabrication of Microstructured Waveguides for THz Communications Using Infinite 3D Printing,” IEEE Photonics Society Summer Topicals Meeting Series (SUM), 2021; DOI: 10.1109/SUM48717.2021.9505784
   
6. Y. Cao, K. Nallappan, H. Guerboukha, G. Xu, M. Skorobogatiy, "Modular 3D-Printed Plasmonic Circuits for Signal Processing in THz Communications," Conference on Lasers and Electro-Optics, USA, 2021, OSA Technical Digest (Optical Society of America, 2021), paper STh2F.3
   
7. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian, M. Skorobogatiy, "Terahertz Communications Using Rod-in-air Dielectric Subwavelength Fiber," Conference on Lasers and Electro-Optics, USA, 2021, OSA Technical Digest (Optical Society of America, 2021), paper STh2F.5
   
8. G. Xu, K. Nallappan, Y. Cao, M. Skorobogatiy, "Low loss and near-zero dispersion suspended core polypropylene fibers printed with standard and infinite FDM-based 3D printers for THz communication," APS March Meeting, Bulletin of the American Physical Society, L59.00001, 2021
   
9. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian, M. Skorobogatiy, "Terahertz Communication Using Dielectric Subwavelength Fibers," APS March Meeting, Bulletin of the American Physical Society, L59.00005, 2021
   
10. Y. Cao, K. Nallappan, H. Guerboukha, G. Xu, M. Skorobogatiy, "Additive manufacturing of highly reconfigurable plasmonic circuits for terahertz communications," APS March Meeting, Bulletin of the American Physical Society, H71.00056, 2021
    
11. M. Poulin and M. Skorobogatiy, "Ceramic-based metamaterial for THz sensing applications", SPIE Nanoscience + Engineering 2021, United States, Proc. SPIE 11795, Metamaterials, Metadevices, and Metasystems 2021, 117951Y (1 August 2021); DOI: 10.1117/12.2594209
    
12. G. Xu, K. Nallappan, Y. Cao, and M. Skorobogatiy, "Infinite 3D printed microstructured low-loss and near-zero dispersion polypropylene fiber for THz communications", SPIE Optical Engineering + Applications 2021, United States, Proc. SPIE 11826, Photonic Fiber and Crystal Devices: Advances in Materials and Innovations in Device Applications XV, 1182602 (1 August 2021); DOI: 10.1117/12.2592092
    
13. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian, and M. Skorobogatiy, "Subwavelength solid core dielectric terahertz fibers for short range communications", SPIE Optical Engineering + Applications 2021, United States, Proc. SPIE 11827, Terahertz Emitters, Receivers, and Applications XII, 1182705 (1 August 2021); DOI: 10.1117/12.2593927
    

1. H. Guerboukha, Y. Cao, K. Nallappan, and M. Skorobogatiy, "Super-resolution Orthogonal Deterministic Imaging Technique for Terahertz Subwavelength Microscopy," ACS Photonics, vol. 7 (7), pp. 1866–1875 (2020); https://doi.org/10.1021/acsphotonics.0c00711
   Supplemental information
   ArXiv:1912.04704 (2020)
   
2. K.I. Zaytsev, G.M. Katyba, N.V. Chernomyrdin, I.N. Dolganova, A.S. Kucheryavenko, A.N. Rossolenko, V.V. Tuchin, V.N. Kurlov, and M. Skorobogatiy, "Overcoming the Abbe diffraction limit using a bundle of metal-coated high-refractive index sapphire optical fibers," Advanced Optical Materials, 2000307 (2020); https://doi.org/10.1002/adom.202000307
   
3. E. Zhang, Y. Cao, C. Caloz, M. Skorobogatiy, "Improving thermo-optical properties of smart windows via coupling to radiative coolers," Applied Optics, vol.53, pp. D210-D220 (2020); https://doi.org/10.1364/AO.382050
   Supplemental information, arXiv:1906.07638
   
4. Invited review: K.I. Zaytsev, N.V Chernomyrdin, G.M. Katyba, I.N. Dolganova, O.P. Cherkasova, G.A. Komandin, V.N. Kurlov, D.S. Ponomarev, M.A. Skorobogatiy, I.V. Reshetov, and V.V. Tuchin "The progress and perspectives of terahertz technology for diagnosis of neoplasms: A review," Journal of Optics vol. 22, 013001 (2020); https://doi.org/10.1088/2040-8986/ab4dc3
   
5. Y. Cao, K. Nallappan, H. Guerboukha, G. Xu, and M. Skorobogatiy, "Additive manufacturing of highly reconfigurable plasmonic circuits for terahertz communications," Optica vol. 7(9), pp. 1112-1125 (2020)
   Supplemental information
   
6. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian, and M. Skorobogatiy, "Dispersion limited versus power limited terahertz communication links using solid core subwavelength dielectric fibers," Photonics Research, vol. 8, p. 1757 (2020)
   
7. A.A. Gavdush, N.V. Chernomyrdin, D.V. Lavrukhin, Y. Cao, G.A. Komandin, I.E. Spektor, I.N. Dolganova, V.N. Kurlov, D.S. Ponomarev, M. Skorobogatiy, I.V. Reshetov, and K.I. Zaytsev, "A proof of concept for continuously-tunable terahertz bandpass filter based on a gradient metal-hole array," Optics Express, vol. 28, 26228 (2020)
   
8. V.E. Ulitko, A.K. Zotov, A.A. Gavdush, G.M. Katyba, G.A. Komandin, I.E. Spektor, I.M. Shmytko, G.A. Emelchenko, I.N. Dolganova, M. Skorobogatiy, V.N. Kurlov, V.M. Masalov, K.I. Zaytsev, "Nanoporous SiO2 based on annealed artificial opals as a favorable material platform of terahertz optics," Optics Materials Express, vol. 10, 402185 (2020)
   
9. G. Xu, N. Kathirvel, Y. Cao, M. Skorobogatiy, "Continuous Fabrication of Microstructured Fibers for THz Communications Using Infinite 3D Printing," December (2020); https://doi.org/10.31224/osf.io/qkubm
   

1. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian and M. Skorobogatiy "Increasing Reliability of Terahertz Communication Links Using Onboard Fiber Connectivity," 10th Annual Computing and Communication Workshop and Conference (CCWC), USA, pp. 1065-1070 (2020); DOI: 10.1109/CCWC47524.2020.9031199
   
2. K. Nallapan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian, and M. Skorobogatiy, "Terahertz Communications Using Subwavelength Solid Core Fibers," APS/URSI 2020, IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting, Section FR-UD.1A.3 - THz and Photonics Devices, Canada, paper #1042 (2020); v10.23919/USNC/URSI49741.2020.9321681> DOI: 10.23919/USNC/URSI49741.2020.9321681
   Recorded presentation
   
3. H. Guerbouka, Y. Cao, K. Nallannan and M. Skorobogatiy, "Super-resolution Terahertz Microscopy with Deterministic Artificial Fluorophores," 45th International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 2020; DOI: 10.1109/IRMMW-THz46771.2020.9370527
   
4. Invited talk: M. Skorobogatiy, Y. Cao, H. Guerboukha and K. Nallappan, "Integrated optical circuits and fiberbased devices for upcoming THz communications," SPIE Photonics North, HP-2-26-2, Canada (2020) Recorded presentation
   
5. K. Nallappan, Y. Cao, G. Xu, H. Guerboukha, C. Nerguizian and M. Skorobogatiy, "High Bitrate Terahertz Fiber Communications," SPIE Photonics North, OT-1-26-1, Canada (2020) Recorded presentation
   
6. G. Xu, K. Nallappan, Y. Cao and M. Skorobogatiy, "3D printed suspended-core polypropylene fiber for THz communication system ," SPIE Photonics North, OT-2-27-6, Canada (2020) Recorded presentation
   
7. Y. Cao, K. Nallappan, H. Guerboukha and M. Skorobogaity, "3D Printed Two-wire Terahertz Waveguide," SPIE Photonics North, OT-2-27-8, Canada (2020) Recorded presentation
   
8. N.V. Chernomyrdin, A.S. Kucheryavenko, G.S. Kolontaeva, G.M. Katyba, I.N. Dolganova, P.A. Karalkin, D.S. Ponomarev, V.N. Kurlov, I.V. Reshetov, V.V. Tuchin, M. Skorobogatiy, and K.I. Zaytsev, "Principles of solid immersion imaging and its application to superresolution microscopy of soft biological tissues in the terahertz spectralrange," SPIE Medical Imaging, USA, 11312-1 (2020)
   
9. K.I. Zaytsev, I.N. Dolganova, N.V. Chernomyrdin, G.M. Katyba, A.A. Gavdush, O.P. Cherkasova, G.A. Komandin, M.A. Shchedrina, A.N. Khodan, D.S. Ponomarev, I.V. Reshetov, V.E. Karasik, M. Skorobogatiy, V.N. Kurlov, and V.V. Tuchin, "The potentials and limitations of terahertz imaging for diagnosis of neoplasms," SPIE Medical Imaging, USA, 11312-89 (2020)
   

1. Invited paper: Z.-L. Deck-Léger, N. Chamanara, M. Skorobogatiy, M.G. Silveirinha, C. Caloz, "Uniform-Velocity Spacetime Crystals," Advanced Photonics, vol. 1(5), 056002 (2019); https://doi.org/10.1117/1.AP.1.5.056002
   
2. Invited review: M. Poulin, S. Giannacopoulos, M. Skorobogatiy, "Surface Wave Enhanced Sensing in the Terahertz Spectral Range: Modalities, Materials, and Perspectives," Special Issue of the MDPI Sensors "Fiber Optic Sensors with Plasmonic Nanostructures and Gratings: Applications and New Perspectives," vol. 19, p. 5505 (2019) ; https://doi.org/10.3390/s19245505
   
3. Special Issue of OPN, Optics in 2019: H. Guerboukha, K. Nallappan, Y. Cao, M. Seghilani, J. Azaña, and M. Skorobogatiy, "Low-Loss Porous Optical Components," Optics Photonics News, December Special Issue "Optics in 2019", p. 49 (2019)
   
4. Y. Cao, K. Nallappan, H. Guerboukha, T. Gervais, and M. Skorobogatiy, "Additive Manufacturing of Resonant Fluidic Sensors based on Photonic Bandgap Waveguides for Terahertz Applications," Optics Express Vol. 27, pp. 27663-27681 (2019); https://doi.org/10.1364/OE.27.027663
   
5. H. Guerboukha, K. Nallappan, Y. Cao, M. Seghilani, J. Azaña, and M. Skorobogatiy, "Planar porous components for low-loss terahertz optics," Advanced Optical Materials, 1900236 (2019); https://doi.org/10.1002/adom.201900236
   
6. D.V. Lavrukhin, A.E. Yachmenev, I.A. Glinskiy, R.A. Khabibullin, Y.G. Goncharov, M. Ryzhii , T. Otsuji , I.E. Spector, M. Shur , M. Skorobogatiy, K.I. Zaytsev, and D.S. Ponomarev, "Terahertz photoconductive emitter with dielectric-embedded high-aspect-ratio plasmonic grating for operation with lowpower optical pumps," AIP Advances, vol. 9, 015112 (2019); https://doi.org/10.1063/1.5081119
   
7. M. Poulin, S. Giannacopoulos, M. Skorobogatiy, "Enabling materials for subwavelength-size low-loss surface modes in the Terahertz spectral range," November (2019); https://doi.org/10.31224/osf.io/ga4vs ; arXiv:1911.02401;
   
8. E. Zhang, Y. Cao, C. Caloz, M.A. Skorobogatiy "Improving thermo-optic properties of smart windows via coupling to radiative coolers," November (2019); https://doi.org/10.31224/osf.io/zrt52
   
9. E. Zhang, C. Caloz, M.A. Skorobogatiy "Simple physical models for the partially transparent radiative windows, comparison to the radiative coolers," February (2019); https://doi.org/10.31224/osf.io/3p8cj ; arXiv:1906.07638
   

1. Invited talk: H. Guerboukha, K. Nallappan, and M. Skorobogatiy, "Toward Real Time THz Imaging,” X Iberoamerican Optics Meeting / XIII Latinamerican Meeting on Optics, Lasers and Applications/ Mexican Optics and Photonics Meeting, Mexico, (2019)
   
2. Invited talk: X. Lu, H. Qu, and M. Skorobogatiy, "Piezoelectric Micro- and Nanostructured Fibers Fabricated from Thermoplastic Nanocomposites Using a Fiber Drawing Technique: Comparative Study and Potential Applications,” XXVIII International Materials Research Congress, D7, Materials and Technologies for Energy Conversion Saving and Storage (MATECSS), Mexico, (2019)
   
3. H. Qu, X. Lu and M. Skorobogatiy, "All-Solid Flexible Fiber-Shaped Lithium Ion Batteries,” XXVIII International Materials Research Congress, D7, Materials and Technologies for Energy Conversion Saving and Storage (MATECSS), Mexico, (2019)
   
4. Skorobogatiy Maksim, "Biofriendly Silk Foams for bio-imaging and diagnostics using Terahertz waves,” XXVIII International Materials Research Congress, C6, Materials for Health Applications: Biomedical Implants, Biomaterials, Therapeutics and Cosmetics, Mexico, (2019)
   
5. Skorobogatiy Maksim, "Pseudo-plasmonic materials with subwavelength patterning for applications in THz super-resolution imaging and ultra-fast wireless communications,” XXVIII International Materials Research Congress, A1, Nanostructured Plasmonic Materials, Mexico, (2019)
   
6. Y. Cao, K. Nallappan, H. Guerboukha, T. Gervais, M. Skorobogatiy, "Photonic Bandgap Bragg Waveguide-based Terahertz Microfluidic Sensor," 44th IRMMW-THz 2019, Tu-PM1-3-5, France, (2019)
   
7. H. Guerboukha, K. Nallappan, Y. Cao, M. Seghilan, J. Azana, M. Skorobogatiy, "Low-loss Planar Porous Components For Terahertz Beamforming," 44th IRMMW-THz 2019, Tu-PM2-3-3, France, (2019)
   
8. H. Guerboukha, K. Nallappan, M. Skorobogatiy, «Imagerie térahertz par encodage spectral», 87e Congrés de l'Association francophone pour le savoir (ACFAS), 2019
   
9. H. Guerboukha, K. Nallappan, and M. Skorobogatiy, "Terahertz imaging with 45 pixels through spectral encoding of the k-space," The 8th International Conference on Optical Terahertz Science and Technology, paper 73, Fr-A1-1, USA, (2019)
   
10. K. Nallappan, H. Guerboukha, Y. Cao, C. Nerguizian and M. Skorobogatiy, "Signal Transmission Using Solid Core Terahertz Waveguide," The 8th International Conference on Optical Terahertz Science and Technology, paper 102, Tu-P-23, USA, (2019)
    
11. Y. Cao, K. Nallappan, H. Guerboukha, T. Gervais and M. Skorobogatiy, "Photonic Bandgap Bragg Waveguide-based Terahertz Microfluidic Sensor," The 8th International Conference on Optical Terahertz Science and Technology, paper 135, We-P-47, USA, (2019)
    
12. H. Guerboukha, K. Nallappan, M. Seghilani, J. Azana and M. Skorobogatiy, "Low-loss terahetz lens and vortex generator using planar porous components," The 8th International Conference on Optical Terahertz Science and Technology, paper 97, Tu-P-22, USA, (2019)
    
13. M. Skorobogatiy, J. Sadasivan, K. Nallappan and H. Guerboukha, "Statistical denoising models for THz time-domain spectroscopy," The 8th International Conference on Optical Terahertz Science and Technology, paper 74, We-P-46, USA, (2019)
    
14. K. Nallappan, H. Guerboukha, Y, Cao, C. Nerguizian and M. Skorobogatiy, "High Bitrate Data Transmission Using Polypropylene Fiber in Terahertz Frequency Range," The International Workshop on Antenna Technology (iWAT) 2019, TI-3: Technical Interactive Session, 1570500693, USA, (2019)
    
15. Finalist for the best poster award: H. Guerboukha, K. Nallappan, Y, Cao, and M. Skorobogatiy, "Low-loss planar components for THz wireless communications," The International Workshop on Antenna Technology (iWAT) 2019, MI-1: Technical Interactive Session, 1570502640, USA, (2019)
    
16. D.V. Lavrukhin, A.E. Yachmenev, I.A. Glinskiy, R.A. Khabibullin, Y.G. Goncharov, M. Ryzhii, T. Otsuji, I.E. Spektor, M. Shur, K. Nallappan, M. Skorobogatiy, K.I. Zaytsev, and D.S. Ponomarev "Terahertz Photoconductive Emitter with Dielectric-embedded High-aspect-ratio Plasmonic Grating for Operation with Low-power Optical Pumps," The International Workshop on Antenna Technology (iWAT) 2019, MI-1: Technical Interactive Session, 1570508145, USA, (2019)
17. K. Nallappan, H. Guerboukha, and M. Skorobogatiy, "Reconfigurable Terahertz Array Antenna," The International Workshop on Antenna Technology (iWAT) 2019, WI-4: Technical Interactive Session, 1570508171, USA, (2019)
    
18. K. Nallappan, H. Guerboukha, Y. Cao, C. Nerguizian and M. Skorobogatiy, "Experimental Demonstration of 5 Gbps Data Transmission Using Long Sub-Wavelength Fiber at 140 GHz," Radio & Wireless Week 2019, RWW Poster I: RWW Poster I, 1570495143, USA, (2019)
    
19. H. Guerboukha, K. Nallappan, Y, Cao, and M. Skorobogatiy, "Low-loss planar components for THz wireless communications," Radio & Wireless Week 2019, RWS_LN_S2: RWS Late News Session II, 1570495450, USA, (2019)
    

1. K. Nallappan, H. Guerboukha, C. Nerguizian and M. Skorobogatiy, "Live Streaming of Uncompressed 4K Video Using Terahertz Wireless Links," IEEE Access, vol.6, pp. 1-16, (2018); https://doi.org/10.1109/ACCESS.2018.2873986
   
2. H. Guerboukha, K. Nallapan, M. Skorobogatiy, "Review: Towards real-time THz imaging," Advances in Optics and Photonics, vol. 10 (4), pp. 843-938 (2018); https://doi.org/10.1364/AOP.10.000843
   
3. N.V. Chernomyrdin, A.S. Kucheryavenko, G.S. Kolontaeva, G.M. Katyba, I.N. Dolganova, P.A. Karalkin, D.S. Ponomarev, V.N. Kurlov, I.V. Reshetov, M. Skorobogatiy, V.V. Tuchin, and K.I. Zaytsev, "Reflection-mode continuous-wave 0.15 lambda-resolution terahertz solid immersion microscopy of soft biological tissues," Appl. Phys. Lett., vol. 113, 111102 (2018); https://doi.org/10.1063/1.5045480
   
4. G.M. Katyba, K.I. Zaytsev, N.V. Chernomyrdin, I.A. Shikunova, G.A. Komandin, V.B. Anzin, S.P. Lebedev, I.E. Spektor, V.E. Karasik, S.O. Yurchenko, I.V. Reshetov, V.N. Kurlov, and M. Skorobogatiy, "Sapphire photonic crystal waveguides for terahertz sensing in aggressive environments," Advanced Optical Materials, vol. 6, 1800573 (2018); https://doi.org/10.1002/adom.201800573
   
5. M. Skorobogatiy, J. Sadasivan, and H. Guerboukha, "Statistical Models for Averaging of the Pump–Probe Traces: Example of Denoising in Terahertz Time-Domain Spectroscopy," IEEE Trans. THz Sci. Techn., vol. 8 (3), pp. 287-298 (2018)
   
6. H. Qu, X. Lu, and M. Skorobogatiy, "All-Solid Flexible Fiber-Shaped Lithium Ion Batteries," Journal of the Electrochemical Society, vol. 165 (3), pp. A688-A695 (2018)
   
7. H. Guerboukha, K. Nallappan, and M. Skorobogatiy, "Exploiting k-space/frequency duality toward real-time terahertz imaging," Optica, vol. 5, pp. 109-116 (2018)
   Supplementary material
   

1. Plenary talk: K. Nallappan, Y. Cao, H. Guerboukha and M. Skorobogatiy, "Ubiquitous THz photonics from ultrahigh bit-rate communications to super-resolution non-destructive imaging," Saratov Fall Meeting 2018 and XXII International School for Junior Scientists and Students on Optics, Laser Physics & Biophotonics, Russia (2018)
   
2. Invited talk: H. Qu, X. Lu, M. Skorobogatiy, "Piezoelectric Micro- And Nano- Structured Fibers Fabricated via Fiber Drawing Technique," IEEE International Flexible Electronics Technology Conference, Session 6: Flexible energy harvesters and storages, Canada (2018)
   
3. X. Lu, H. Qu, M. Skorobogatiy, "All-solid Flexible Fiber-Shaped Lithium Ion Batteries," IEEE International Flexible Electronics Technology Conference, Session 6: Flexible energy harvesters and storages, Canada (2018)
   
4. X. Lu, H. Qu, and M. Skorobogatiy, "Piezoelectric Micro- and Nanostructured Fibers Fabricated from Thermoplastic Nanocomposites Using a Fiber Drawing Technique: Comparative Study and Potential Applications," M02 Wearable Sensors and Systems, Advanced Solid State and Electrochemical Science and Technology (AiMES) Meeting, Mexico (2018)
   
5. H. Qu, X. Lu, M. Skorobogatiy, "Solid Electrolyte, Flexible Li-ion Fiber Batteries for Compliant Energy Storage and Wearable Applications," A01 Battery and Energy Technology, (AiMES) Meeting, Mexico (2018)
   
6. H. Guerboukha, K. Nallappan, M. Seghilani, G. Mangeat, J. Azaña, M. Skorobogatiy, "Generation of Orbital Angular Momentum States at Terahertz Frequencies with Metamaterials," SPIE Photonics North, 255-H9JK-63, Canada (2018)
   
7. M. Skorobogatiy, J. Sadasivan, H. Guerboukha, "Averaging of pump-probe traces using statistical models: denoising in THz time-domain spectroscopy," SPIE Photonics North, 255-8uTy-63, Canada (2018)
   
8. H. Guerboukha, K. Nallappan, M. Skorobogatiy, "Terahertz spectral encoding of the k-space," SPIE Photonics North, 255-TNTD-63, Canada (2018)
   
9. K. Nallappan, H. Guerboukha, C. Nerguizian and M. Skorobogatiy, "Indoor Wireless Transmission of Uncompressed HD and 4K Videos Using Photonics Technologies ," SPIE Photonics North, 255-th63-232, Canada (2018)
   
10. K. Nallappan, R. Morandotti, M. Skorobogatiy, "Generation of High Power Continuous Wave Terahertz Radiation Using Nonlinear Crystal," SPIE Photonics North, 255-se82-232, Canada (2018)
    
11. IEEE Communication Society Special Mentioning (Featured Technology for Communication - Tech Focus on Above 100 GHz and Terahertz): K. Nallappan, H. Guerboukha, C. Nerguizian and M. Skorobogatiy, "Live Streaming of Uncompressed 4K Video Using Terahertz Wireless Links," IEEE ICC 2018 Wireless Communications Symposium, I-WCS.01, USA (2018)
    
12. K. Nallappan, H. Guerboukha, C. Nerguizian and M. Skorobogatiy, "Uncompressed HD and Ultra-HD Video Streaming Using Terahertz Wireless Communications," 11th Global Symposium on Millimeter Waves (GSMM) - Sub-Millimeter-Wave and THz Technologies, USA (2018)
    
13. H. Guerboukha, K. Nallappan, and M. Skorobogatiy, "Exploiting k-space/frequency duality in Fourier optics toward real-time compression less terahertz imaging," Proc. SPIE 10669, Computational Imaging III, 106690N (Presented at SPIE Commercial + Scientific Sensing and Imaging: April 16, 2018; Published: 14 May 2018); https://doi.org/10.1117/12.2304892 .
    
14. X. Lu, H. Qu, and M. Skorobogatiy, "Piezoelectric microstructured fibers via drawing of multimaterial preforms," Proc. SPIE 10663, Energy Harvesting and Storage: Materials, Devices, and Applications VIII, 106630E (Presented at SPIE Commercial + Scientific Sensing and Imaging: April 15, 2018; Published: 15 May 2018); https://doi.org/10.1117/12.2304624 .
    
15. H. Guerboukha, K. Nallappan, M. Skorobogatiy, "Spectral encoding using the k-space/frequency duality," SPIE Defence + Security, 10644-73, USA, (2018)
    

1. Feature Article: H. Qu and M. Skorobogatiy, (Ed. S.V. Boriskina), "Optics on the Go: Active-Color-Changing Textiles," Optics Photonics News, September Issue, pp. 36-41 (2017)
   
2. X. Lu, H. Qu, and M. Skorobogatiy, "Piezoelectric Microstructured Fibers via Drawing of Multimaterial Preforms," Nature Scientific Reports, vol. 7, 2907 (2017); doi:10.1038/s41598-017-01738-9
   Supplementary material
   Video 1 - making of a piezoelectric textile
   Video 2 - measuring of vibrations on the airframe
   
3. N.V. Chernomyrdin, A.O. Schadko, S.P. Lebedev, V.L. Tolstoguzov, V.N. Kurlov, I.V. Reshetov, I.E. Spektor, M. Skorobogatiy, S.O. Yurchenko, and K.I. Zaytsev "Solid immersion terahertz imaging with sub-wavelength resolution," Applied Physics Letters, vol. 110, 221109 (2017); doi: 10.1063/1.4984952
   
4. T. Ma, K. Nallapan, H. Guerboukha and M. Skorobogatiy, "Analog signal processing in the terahertz communication links using waveguide Bragg gratings: example of dispersion compensation," Optics Express, vol. 25, pp. 11009 (2017)
   
5. J. Li, K. Nallappan, H. Guerboukha, and M. Skorobogatiy "3D printed hollow core terahertz Bragg waveguides with defect layers for surface sensing applications," Opt. Express, vol. 25, pp. 4126-4144 (2017)
   
6. X. Lu, H. Qu, and M. Skorobogatiy, "Piezoelectric Micro- and Nanostructured Fibers Fabricated from Thermoplastic Nanocomposites Using a Fiber Drawing Technique: Comparative Study and Potential Applications," ACS Nano, DOI: 10.1021/acsnano.6b08290, (2017)
   
7. H. Qu, J. Hou, Y. Tang, O. Semenikihin, and M. Skorobogatiy, "Thin Flexible Lithium Ion Battery Featuring Graphite Paper Based Current Collectors with Enhanced Conductivity," Canadian Journal of Chemistry, vol. 95, pp. 169-173, dx.doi.org/10.1139/cjc-2015-0593, (2017)
   
8. H. Guerboukha, K. Nallappan, M. Skorobogatiy "Exploiting k-space - frequency duality in Fourier optics towards real-time compression-less terahertz imaging," arXiv.org > physics > arXiv:1708.07528, (2017)
   
9. K. Nallappan, H. Guerboukha, C. Nerguizian, M. Skorobogatiy "Transmission of Live Uncompressed 4K Video Using Terahertz Wireless Communication System," arXiv.org > physics > arXiv:1708.07721, (2017)
   
10. K. Nallappan, H. Guerboukha, M. Seghilani, J. Azana, C. Nerguizian, M. Skorobogatiy "Channel Multiplexing in Wireless Terahertz Communications Using Orbital Angular Momentum States," arXiv.org > physics > arXiv:1708.08005, (2017)
    
11. H. Qu, M. Skorobogatiy "Amplitude-flattened frequency combs in the moving photonic crystals," arXiv.org > physics > arXiv:1708.05418, (2017)
    
12. K. Nallapan, R. Morandotti, M. Skorobogatiy, Feasibility Study for the Generation of High Power Continuous Wave Terahertz Radiation using Frequency Difference Generation," arXiv.org > physics > arXiv:1711.07830, (2017)
    
13. K. Nallappan, J. Li, H. Guerboukha, A. Markov, B. Petrov, D. Morris, M. Skorobogatiy "A Dynamically Reconfigurable Terahertz Array Antenna for Near-field Imaging Applications," arXiv.org > physics > arXiv:1705.10624, (2017)
    
14. M. Skorobogatiy, J. Sadasivan, H. Guerboukha, "Statistical models for averaging of the pump-probe time traces: example of denoising in terahertz time domain spectroscopy," arXiv.org > physics > arXiv:1711.03566, (2017)
    

1. Invited talk: X. Lu, Q. Hang, M. Skorobogatiy, "Novel materials and fabrication techniques for wearable energy generation and storage devices - from piezoelectric fibers to li-ion threads," Energy Materials Nanotechnology Americas Meeting, 2017
   
2. K. Nallappan, H. Guerboukha, C. Nerguizian, M. Skorobogatiy, "Practical Implementation Of Live Uncompressed 4K Video Transmission At 140 GHz Using Photonics Technologies," IRMMW-THz, MA1.5, 2017
   
3. K. Nallappan, H. Guerboukha, M. Seghilani, T. Ma, J. Azaña, C. Nerguizian, M. Skorobogatiy, "Multiplexing Of Terahertz Wireless Communication Channels Using Vortex Beams," IRMMW-THz, MB1.2, 2017
   
4. T. Ma, K. Nallappan, H. Guerboukha, M. Skorobogatiy, "Metallized 3D Printed Hollow Core Waveguide Bragg Grating For Dispersion Compensation In Terahertz Range," IRMMW-THz, MC1.2, 2017
   
5. J. Li, T. Ma, K. Nallappan, H. Guerboukha, M. Skorobogatiy, "3D Printed Hollow Core Terahertz Bragg Waveguides With Defect Layers For Surface Sensing Applications," IRMMW-THz, MC1.4, 2017
   
6. H. Guerboukha, K. Nallappan, M. Skorobogatiy, "Fast Compressionless Reconstruction For Terahertz Imaging," IRMMW-THz, WC3.6, 2017
   
7. T. Ma, K Nallapan, H. Guerboukha, M. Skorobogatiy, H. Qu, "Dispersion Compensation in Terahertz Communication Links Using Metallized 3D Printed Hollow Core Waveguide Bragg Gratings," CLEO, SM3J.4, 2017
   
8. J. Li, H. Qu, M. Skorobogatiy, "Squeezed Hollow Core Photonic Bragg fiber for surface sensing applications," CLEO, JTu5A.95, 2017
   
9. J. Li, K. Nallapan, H, Guerboukha, M, Skorobogatiy, "3D printed hollow core terahertz Bragg waveguide for surface sensing applications," CLEO, JW2A.101, 2017
   
10. T. Ma, H. Guerboukha, M. Skorobogatiy, H. Qu, "3D Printed Hollow Core Terahertz Optical Waveguides with Hyperuniform Disordered Dielectric Reflectors," CLEO, JW2A.106, 2017
    
11. K. Nallappan, J. Li, H. Guerboukha, A. Markov, B. Petrov, D. Morris, M. Skorobogatiy "A Dynamically Reconfigurable Terahertz Array Antenna for 2D-Imaging Applications Presentation Style," 36.30, Photonic North, Canada, 2017
12. K. Nallappan, C. Nerguizian, and M. Skorobogatiy, "Real Time Transmission of Ultra-high Bit Rate Data Using Photonics Based Terahertz Wireless Communication System," 8.60, Photonic North, Canada, 2017
    
13. H. Qu, and M. Skorobogatiy, "Sideband generation in moving photonic crystals," 6.06, Photonic North, Canada, 2017
    
14. J. Li, H. Qu, M. Skorobogatiy, "Squeezed hollow core photonic Bragg fiber for surface sensing applications," 100.01, Photonic North, Canada, 2017
    
15. J. Li, K. Nallapan, H. Guerboukha, M. Skorobogatiy, "3D printed hollow-core terahertz bragg waveguides with defect layers for surface sensing applications," 30.10, Photonic North, Canada, 2017
    
16. H. Guerboukha, K. Nallappan, and M. Skorobogatiy, "Extreme Compression in THz Fourier Imaging," 36.40, Photonic North, Canada, 2017
    
17. T. Ma, H. Guerboukha, K. Nallappan, and M. Skorobogatiy, "Dispersion Compensation in Terahertz Communication Links Using Metallized 3D Printed Hollow Core Waveguide Bragg Gratings," 6.05, Photonic North, Canada, 2017
    
18. X. Lu, M. Skorobogatiy, "Smart fibers for textile-based micro-generators and compliant energy storage," ES4.3.02, 2017 MRS Spring Meeting, USA, (2017)
    
19. H. Qu, J. Hou, X. Lu, Y. Tang, O. Semenikhin, M. Skorobogatiy, "Thin Flexible Lithium Ion Battery Featuring Graphite Paper Based Current Collectors with Enhanced Conductivity," ES6.9.20, 2017 MRS Spring Meeting, USA, (2017)
    

1. J. Byers, T. Heiser, M. Skorobogatiy, and O. Semenikhin, "The Effect of Ageing and PCBM content on Bulk Heterojunction Organic Solar Cells Studied by Intensity Modulated Photocurrent Spectroscopy," ACS Applied Materials & Interfaces, vol. 8, pp. 28789-28799, DOI: 10.1021/acsami.6b12345 (2016)
   
2. T. Ma, H. Guerboukha, M. Girard, A.D. Squires, R.A. Lewis, and M. Skorobogatiy "3D Printed Hollow-Core Terahertz Optical Waveguides with Hyperuniform Disordered Dielectric Reflectors," Advanced Optical Materials, DOI: 10.1002/adom.201600171 (2016)
   
3. J. Li, H. Qu, and M. Skorobogatiy, "Squeezed hollow-core photonic Bragg fiber for surface sensing applications," Optics Express, vol. 24, pp. 15687-15701 (2016)
   
4. H. Qu,Z.-L. Deck-Léger, C. Caloz, and M. Skorobogatiy, "Frequency generation in moving photonic crystals," JOSAB, vol. 33, p. 1616 (2016)
   
5. Invited Review Paper: A.K. Yetisen, H. Qu, A. Manbachi, H. Butt, M.R. Dokmeci, J.P. Hinestroza, M. Skorobogatiy, A. Khademhosseini, and S.H. Yun, "Nanotechnology in Textiles," ACS Nano, DOI: 10.1021/acsnano.5b08176, Feb. 2016.
   

1. Invited talk: X. Lu, M. Skorobogatiy, "Smart fibers for textile-based micro-generators and compliant energy storage," EMN Meeting on Electronic Textiles 2016.
2. Zoé-Lise Deck-Léger, Maksim Skorobogatiy, and Christophe Caloz, "Diagrammatic Explanation of the Reverse Doppler Effect in Space-Time Modulated Photonic Crystals," IEEE International Symposium on Antennas and Propagation, USA, June 26 - July 1, 2016.
3. T. Ma, M. Skorobogatiy, "Graded index porous optical fibers: dispersion management in terahertz range," SPIE Photonics West, 9747-58, USA 2016.
4. H. Guerboukha, H. Qu, and M. Skorobogatiy, "Linear rotary optical delay lines," Proc. SPIE 9754, Photonic Instrumentation Engineering III, 97540C (Presented at SPIE OPTO, San Francisco, California, United States; Published: 16 March 2016); https://doi.org/10.1117/12.2216297
5. H. Guerboukha, A. Markov, H. Qu, and M. Skorobogatiy, "Dynamic measurements at THz frequencies with a fast rotary delay line," Proc. SPIE 9747, Terahertz, RF, Millimeter, and Submillimeter-Wave Technology and Applications IX, 97470R (Presented at SPIE OPTO, San Francisco, California, United States; Published: 25 February 2016); https://doi.org/10.1117/12.2216308
6. J. Li, H. Qu, and M. Skorobogatiy, "Detection of analyte refractive index and concentration using liquid-core photonic Bragg fibers," Proc. SPIE 9702, Optical Fibers and Sensors for Medical Diagnostics and Treatment Applications XVI, 97020R (Presented at SPIE BiOS, San Francisco, California, United States; Published: 7 March 2016); https://doi.org/10.1117/12.2216380
7. Q. Hang, Zoé-Lise Deck-Léger, Christophe Caloz, Maksim Skorobogatiy, "Frequency Generation in a Moving 2-Dimensional Photonic Crystal," SPIE Photonics North, 25.40, Canada 2016.
8. Jingwen Li, Maksim Skorobogatiy, "Hollow-core photonic Bragg fiber for bulk and surface sensing applications," SPIE Photonics North, 34.30, Canada 2016.
9. Tian Ma, Maksim Skorobogatiy, "Hollow-Core Terahertz Optical Waveguides With Hyperuniform Disordered Dielectric Reflectors," SPIE Photonics North, 255-apQu-222, Canada 2016.
10. Markov Andrey, Qu Hang, Skorobogatiy Maksim, Guerboukha Hichem, "Contactless Real-time Dynamic Measurements with THz waves and a Rotary Delay Line," Canadian Association of Physicists Congress, 1150024, Canada 2016.
11. Markov Andrey, Skorobogatiy Maksim, Qu Hang, Guerboukha Hichem, "Dynamic measurements at THz frequencies with a fast rotary optical delay line," Canadian Association of Physicists Congress, 1150026, Canada 2016.
12. Yan Guofeng, Skorobogatiy Maksim, Skorobogata Olga, Guerboukha Hichem, "Silk Foam Terahertz Waveguides for Biomedical and Agri-Food Applications," Canadian Association of Physicists Congress, 1150071, Canada 2016.
13. Skorobogatiy Maksim, Li Jingwen, "Hollow-core photonic Bragg fiber for bulk and surface sensing applications," Canadian Association of Physicists Congress, 1150123, Canada 2016.

1. H. Qu, J. Hou, Y. Tang, O. Semenikihin, and M. Skorobogatiy, “Thin Flexible Lithium Ion Battery Featuring Graphite Paper Based Current Collectors with Enhanced Conductivity,” submitted, June 2015.
   
2. H. Guerboukha, A. Markov, H. Qu, M. Skorobogatiy, “Fast rotary linear optical delay line for THz time-domain spectroscopy,” IEEE Transactions on THz Science and Techn, vol. 5, pp. 564 – 572 (2015)
   
3. J. Li, H. Qu, M. Skorobogatiy, “Simultaneous monitoring of the real and imaginary parts of the analyte refractive index using liquid-core photonic bandgap Bragg fibers,” Optics Express, vol. 23, pp. 22963-22976 (2015)
   
4. T. Ma, A. Markov, L. Wang, M. Skorobogatiy, "Graded index porous optical fibers – dispersion management in terahertz range," Optics Express, vol. 23, pp. 7856-7869 (2015)
   
5. Featured article: H. Qu, O. Semenikhin and M. Skorobogatiy, "Flexible fiber batteries for applications in smart textiles," Smart Mater. Struct., vol. 24, 025012 (2015)
   

1. Invited talk: Ma T., M. Skorobogatiy, “Dispersion Compensation in the Fiber-Based Terahertz Communication Links,” IEEE International Conference on Ultra-WideBand (ICUWB), SPS 2, Canada (2015)
   
2. H. Guerboukha, A. Markov, H. Qu, M. Skorobogatiy, “Fast rotary linear optical delay line for THz time-domain spectroscopy,” 40th Int. Conf. on Infrared, Millimeter, and THz Waves, FS-57, China (2015)
   
3. H. Guerboukha, G. Yan, O. Skorobogata, M. Skorobogatiy, "Silk foam terahertz waveguides," 40th Int. Conf. on Infrared, Millimeter, and THz Waves, MS-49, China (2015)
   
4. Invited talk: A. Markov, H. Guerboukha, M. Skorobogatiy, "Hybrid Metal-dielectric THz Fibers: a review," SPIE Photonics North, 255-SjTD-213, Canada, June (2015)
   
5. Invited talk: Ma T., M. Skorobogatiy, “Graded Index Porous Optical Fibers Dispersion Management in Terahertz Range,” SPIE Photonics North, 255-SjTD-213, Canada, June (2015)
   
6. H. Guerboukha, A. Markov, H. Qu and M. Skorobogatiy, “Dynamic measurements at terahertz frequencies with a fast rotary delay line,” SPIE Photonics North, June (2015)
   
7. A. Markov, T. Ma, M. Skorobogatiy, “Graded Index Porous Optical Fibers – Dispersion Management in Terahertz Range,” CLEO, JW2A.56, USA (2015)
   
8. A. Markov, H. Guerboukha, M. Skorobogatiy, “Hybrid Metal Wire-Dielectric THz Fibers: Design and Perspectives,” CLEO, JW2A.55, USA (2015)
   

1. H. Guerboukha, G. Yan, O. Skorobogata, M. Skorobogatiy, "Silk Foam Terahertz Waveguides," Advanced Optical Materials, DOI: 10.1002/adom.201400228 (2014)
   
2. Invited: A. Markov, H. Guerboukha, M. Skorobogatiy, "(30th anniversary) Hybrid metal-dielectric terahertz waveguides: challenges and opportunities," JOSA B, Special 30th Anniversary Issue (Invited Only), vol. 31, pp. 2587–2600 (2014)
   
3. Invited: M. Girard, M. Skorobogatiy, "Integrated terahertz multiparameter sensors using fiber/frequency selective surface couplers," J. of Optics, Special Issue on Mid Infrared and THz Photonics, vol. 16, 094007 (2014)
   
4. H. Qu, G. F. Yan, and M. Skorobogatiy, "Interferometric fiber-optic bending/nano-displacement sensor using plastic dual-core fiber," Opt. Lett., vol. 39, pp. 4835-4838 (2014)
   
5. M. Skorobogatiy, "Linear rotary optical delay lines," Opt. Express, vol. 22, pp. 11812-11833 (2014)
   
6. Book Chapter: H. Qu, J. Li, M. Skorobogatiy, “Photonic bandgap fibers – a roadway to all-fiber refractometer systems for monitoring of liquid analytes,” in Optofluidics, sensors and actuators in microstructured optical fibres ed. Stavros Pissadakis and Stefano Selleri, (Woodhead Publishing 2014)
   
7. Book Chapter (Ch. 4): H. Qu, M. Skorobogatiy, “Conductive polymer yarns for electronic textiles,” in Electronic textiles: Smart fabrics and wearable technology ed. Tilak Dias, (Woodhead Publishing, to appear in 2014)
   

1. Invited talk: A. Markov, H. Guerboukha, M. Skorobogatiy, "Hybrid Metal-dielectric THz Fibers: Design And Perspectives," 39th Int. Conf. on Infrared, Millimeter, and THz Waves, W2B-21.1, USA (2014)
   
2. P. Laurin, M. Girard, M. Skorobogatiy, "Hollow Core Terahertz Optical Fibers With Hyperuniform Disordered Dielectric Reflectors," 39th Int. Conf. on Infrared, Millimeter, and THz Waves, R5-P37.2, USA (2014)
   
3. A. Markov, G. Yan, M. Skorobogatiy, "Low-Loss THz Waveguide Bragg Grating Using A Two-Wire Waveguide And A Paper Grating," 39th Int. Conf. on Infrared, Millimeter, and THz Waves, M2B-3.1, USA (2014)
   
4. T. Ma, M. Skorobogatiy, "Graded Index Microstructured Polymer Fiber For Terahertz Applications," 39th Int. Conf. on Infrared, Millimeter, and THz Waves, F2C-20.1, USA (2014)
   
5. H. Qu, M. Skorobogatiy, "Design of the Curvilinear Reflectors for Linear Rotary Optical Delay Lines," International Optical Design Conference (IODC), IM2B.4, USA (2014)
   
6. H. Qu, M. Skorobogatiy, "An all-fiber spectrometer using deconvolution of intensity images at the output of photonic bandgap fiber bundle," Computational Optical Sensing and Imaging (COSI), CTu2C.3, USA (2014)
   

1. A. Markov and M. Skorobogatiy, "Hybrid plasmonic terahertz fibers for sensing applications," Appl. Phys. Lett., vol. 103, 181118 (2013)
   
2. A. Markov, H. Guerboukha, A. Argyros, and M. Skorobogatiy, "A complementary study to “Hybrid hollow core fibers with embedded wires as THz waveguides” and “Two-wire terahertz fibers with," Opt. Express, vol. 21, pp. 27802-27803 (2013)
   
3. C. Reinhardt, A.B. Evlyukhin, W. Cheng, T. Birr, A. Markov, B. Ung, M. Skorobogatiy, and B.N. Chichkov, “Bandgap-confined large mode waveguides for surface plasmon-polaritons," JOSA B, vol. 30, pp. 2898–2905 (2013)
   
4. Hang Qu, Tiberius Brastaviceanu, Francois Bergeron, Jonathan Olesik, Ivan Pavlov, Takaaki Ishigure, and Maksim Skorobogatiy, “Photonic bandgap Bragg fiber sensors for bending/displacement detection," Applied Optics, vol. 52, pp. 6344 (2013)
   
5. Guofeng Yan, Andrey Markov, Yasser Chinifooroshan, Saurabh M Tripathi, Wojtek J Bock, Maksim Skorobogatiy, “Low-Loss THz Waveguide Bragg Grating using a Two-Wire Waveguide and a Paper Grating," Optics Letters, vol. 38, pp. 3089–3092 (2013)
   
6. M. Girard, M. Skorobogatiy, “Probing terahertz metamaterials with subwavelength optical fibers," Optics Express, vol. 21, pp. 17195-17211 (2013)
   
7. Guofeng Yan, Andrey Markov, Yasser Chinifooroshan, Saurabh M Tripathi, Wojtek J Bock, Maksim Skorobogatiy, “Resonant THz sensor for paper quality monitoring using THz fiber Bragg gratings," Optics Letters, vol. 38, pp. 2200-2202 (2013)
   
8. A. Markov, M. Skorobogatiy, “Two-wire terahertz fibers with porous dielectric support," Optics Express, vol. 21, pp. 12729-12743 (2013)
   
9. A. Markov, A. Mazhorova, M. Skorobogatiy, “Planar porous THz waveguides for low-loss guidance and sensing applications," IEEE Transactions on Terahertz Science and Technology, vol. 3, pp. 96-102 (2013)
   
10. Book Chapter (Ch. 2): B. Ung, M. Skorobogatiy, “Transmission and propagation of terahertz waves in plastic waveguides,” in Handbook of terahertz technology for imaging, sensing and communications ed. Daryoosh Saeedkia, (Woodhead Publishing 2013)
    
11. Book Chapter (Ch. 3): S. Gorgutsa, J. Berzowska, M. Skorobogatiy, “Photonic textiles using optical fibers,” in Multi-disciplinary know-how for smart textile developers ed. Tünde Kirstein, (Woodhead Publishing 2013)
    
12. Book Chapter (Ch. 6): S. Gorgutsa, M. Skorobogatiy, “Tactile sensing textiles using soft capacitance fibers,” in Multi-disciplinary know-how for smart textile developers ed. Tünde Kirstein, (Woodhead Publishing 2013)
    

1. Q. Hang, M. Skorobogatiy, “Micro-Displacement Sensors Based on Plastic Photonic Bandgap Bragg Fibers,” Frontiers in Optics (FiO), FTh4B.4, Orlando, Florida, USA, October, 2013
   
2. Y. Guofeng, M. Skorobogatiy, et al., “Low-Loss THz Waveguide Bragg Grating using a Two-Wire Waveguide and a Micromachined Paper Grating,” Frontiers in Optics (FiO), FTu1B.4, Orlando, Florida, USA, October, 2013
   
3. Y. Guofeng, M. Skorobogatiy, et al., “THz Fiber Bragg Gratings Sensor for Paper Quality Monitoring,” Frontiers in Optics (FiO), FTu4B.5, Orlando, Florida, USA, October, 2013
   
4. A. Markov, “Hybrid Plasmonic Terahertz Fibers for Sensing Applications,” Frontiers in Optics (FiO), FTu4B.2, Orlando, Florida, USA, October, 2013
   
5. Invited: M. Skorobogatiy, “THz fiber and THz metamaterial devices for sensing and signal processing,” IEEE Photonics Conference (IPC), Washington, USA, September, 2013
   
6. Invited: A. Markov, H. Guerboukha, M. Skorobogatiy, “Plasmonic Two Wire Terahertz Fibers with Highly Porous Dielectric Support ,” IEEE Photonics Conference (IPC), Washington, USA, September, 2013
   
7. Invited: M. Girard, M. Skorobogatiy, “Probing Terahertz Frequency Selective Surfaces with Subwavelength Optical Fibers,” IEEE Photonics Conference (IPC), Washington, USA, September, 2013
   
8. Y. Guofeng, Y. Chiniforooshan, P. Mikulic, W.J. Bock, M. Skorobogatiy, “THz Bragg Gratings By CO2 Laser Inscription And Their Application To Monitoring Of Paper Quality," International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 2352470, Germany, September, 2013
   
9. A. Markov, H. Guerboukha, M. Skorobogatiy, "Plasmonic Two Wire Terahertz Fibers With Porous Dielectric Support " International Conference on Infrared, Millimeter, and Terahertz Waves (IRMMW-THz), 2352610 , Germany, September, 2013
   
10. Q. Hang, T. Brastaviceanu, F. Bergeron, J. Olesik, M. Skorobogatiy, “Micro-Displacement Sensors Based on Plastic Photonic Bandgap Bragg Fibers,” OSA Optical Sensors, SM2D.5, Rio Grande, Puerto Rico, July, 2013
    
11. Y. Guofeng, Y. Chiniforooshan, P. Mikulic, W.J. Bock, M. Skorobogatiy, “THz Bragg gratings by CO2 laser inscription and their application in paper quality monitoring ,” OSA Optical Sensors, SM3B.6, Rio Grande, Puerto Rico, July, 2013
    
12. M. Girard, M. Skorobogatiy, “Terahertz Multiparameter Sensors Based on Frequency Selective Surfaces Interrogated with Subwavelength Fibers,” OSA Optical Sensors, SM4B.3, Rio Grande, Puerto Rico, July, 2013
    
13. A. Markov, M. Skorobogatiy, “Hybrid Plasmonic Terahertz Fibers for Sensing,” OSA Optical Sensors, SM1C.3, Rio Grande, Puerto Rico, July, 2013
    
14. A. Markov, S. Gorgutsa, H. Qu, M. Skorobogatiy, “Plasmonic Two Wire Terahertz Fibers with Highly Porous Dielectric Support,” Conference on lasers and Electro Optics (CLEO 2013), CTh1K.4, San Jose, USA, June, 2013
    
15. M. Shalaby, M. Skorobogatiy, R. Morandotti, et al., “Broadband THz Faraday Rotation in a Magnetic Liquid,” International Workshop on Optical Terahertz Science and Technologies (OTST 2013), abstract 102, Kyoto, Japan, April, 2013
    
16. Hang Qu, Jean-Pierre Bourgeois, Julien Rolland, Alexandru Vlad, Jean-François Gohy and Maksim Skorobogatiy, "Flexible fiber batteries for applications in smart textiles," MRS Online Proceedings Library, 1489, mrsf12-1489-a04-01 doi:10.1557/opl.2013.913, (2013)
    

1. A. Mazhorova, A. Markov, B. Ung, M. Rozé, S. Gorgutsa, M. Skorobogatiy, “Thin chalcogenide capillaries as efficient waveguides from mid-infrared to terahertz,” JOSA B, Vol. 29 Issue 8, pp. 2116-2123 (2012)
   
2. M. Shalaby, M. Peccianti, Y. Ozturk, M. Clerici, I. Al-Naib, L. Razzari, T. Ozaki, A. Mazhorova, M. Skorobogatiy, R. Morandotti, “Terahertz Faraday rotation in a magnetic liquid: High magneto-optical figure of merit and broadband operation in a ferrofluid,” Applied Physics Letters, vol. 100 (24), Article Number: 241107, (2012)
   
3. A. Mazhorova, A. Markov, A. Ng, et al., “Label-free bacteria detection using evanescent mode of a suspended core terahertz fiber,” Optics Express, vol. 20 (5), pp. 5344-5355, (2012)
   
4. Y. Liu, S. Gorgutsa, C. Santato, and M. Skorobogatiy “Flexible, Solid Electrolyte-Based Lithium Battery Composed of LiFePO4 Cathode and Li4Ti5O12 Anode for Applications in Smart Textiles,” Journal of The Electrochemical Society, vol. 159 (4), pp. A349-A356 (2012)
   
5. S. Gorgutsa, J.F. Gu and M. Skorobogatiy “A woven 2D touchpad sensor and a 1D slide sensor using soft capacitor fibers,” Smart Mater. Struct., vol. 21, 015010 (2012)
   
6. H. Qu, M. Skorobogatiy "Resonant bio- and chemical sensors using low-refractive-index-contrast liquid-core Bragg fibers," Sensors and Actuators B: Chemical, vol. 161, pp. 261–268 (2012)
   
7. H. Qu, B. Ung, M. Roze, and M. Skorobogatiy "All photonic bandgap fiber spectroscopic system for detection of refractive index changes in aqueous analytes," Sensors and Actuators B: Chemical, vol. 161, pp. 235–243 (2012)
   
8. Book: M. Skorobogatiy, “Nanostructured and Subwavelength Waveguides: Fundamentals and Applications,” (Wiley, 2012)
   

1. Invited Talk: H. Qu, J.-P. Bourgeois, J. Rolland, A. Vlad, J.-F. Gohy and M. Skorobogatiy, "Flexible fiber batteries for applications in smart textiles," 2012 Materials Research Society Fall Meeting, Section A: Complient Energy Sources, talk A4.01, Boston, USA, 2012.
   
2. Hang Qu, Maksim Skorobogatiy, "Liquid-core low-refractive index-contrast Bragg fiber sensor," (BIO-SENS-6-20-3), Photonics North, Canada, 2012
   
3. M. Shalaby, M. Peccianti, Y. Ozturk, M. Clerici, I. Al-Naib, L. Razzari, A. Mazhorova, M. Skorobogatiy, T. Ozaki, and R. Morandotti "Magnetic field induced switching of terahertz pulses in a liquid," (ULTRA/NANO-7-27-2), Photonics North, Canada, 2012
   
4. Anna Mazhorova, Andrey Markov, Bora Ung, Mathieu Rozé, Stepan Gorgutsa, and Maksim Skorobogatiy, "THz wave guiding using hollow capillaries," (OPTICS-7-26-3), Photonics North, Canada, 2012
   
5. Hang Qu, Maksim Skorobogatiy, "All-photonic-bandgap-fiber sensor for detection of liquid refractive index," (BIO-SENS-8-50-5), Photonics North, Canada, 2012
   
6. A. Markov, S. Gorgutsa, H. Qu and M. Skorobogatiy, "THz wire waveguides," Plasmonics, Gordon Research Conference, Maine, USA, June, 2012.
   
7. Plenary Talk: M. Skorobogatiy, "Photonic, Sensing and Energy-Generating Textiles," Communications Microsystems Optoelectronics Sensors (Emerging Technologies), Vancouver, Canada, July 18-21, 2012.
   
8. M. Shalaby, M. Peccianti, Y. Ozturk, L. Razzari, M. Clerici, A. Mazhorova, M. Skorobogatiy, T. Ozaki, R. Morandotti, "Polarization-sensitive Magnetic Field Induced Modulation of Broadband THz Pulses in Liquid," CM1L.4, CLEO, San Jose, CA, USA, 2012
   
9. H. Qu, B. Ung, M. Skorobogatiy, "Photonic bandgap fiber bundle spectrometer," CM4B.4, CLEO, San Jose, CA, USA, 2012
   
10. A. Markov, C. Reinhardt, B. Ung, A. Evlyukhin, W. Cheng, B. Chichkov, M. Skorobogatiy, "Photonic Bandgap Plasmonic Waveguides," JTh2A.110, CLEO, San Jose, CA, USA, 2012
    
11. Invited Talk: M. Skorobogatiy, "Dielectric THz waveguides," Workshop: Novel Trends in Photonics 2012, INRS, Varennes, Canada, February 8, 2012
    

1. B. Ung, A. Mazhorova, A. Dupuis, M. Rozé, and M. Skorobogatiy "Polymer microstructured optical fibers for terahertz wave guiding," Optics Express, Vol. 19 Issue 26, pp.B848-B861 (2011)
   
2. Special Issue of OPN, Optics in 2011: B. Ung, M. Rozé, A. Mazhorova, M. Walther and M. Skorobogatiy "Suspended Core Subwavelength Plastic Fibers for THz Guidance," Optics Photonics News, December Special Issue "Optics in 2011", p. 41 (2011)
   
3. B. Ung and M. Skorobogatiy "Extreme optical nonlinearities in chalcogenide glass fibers embedded with metallic and semiconductor nanowires," Appl. Phys. Lett., vol. 99, 121102 (2011)
   
4. One of the Top 10 Downloaded OL Articles in July 2011
   A. Markov, C. Reinhardt, B. Ung, A. Evlyukhin, W. Cheng, B. Chichkov, and M. Skorobogatiy "Photonic bandgap plasmonic waveguides," Optics Lett., vol. 36, pp.2468-2470 (2011)
   
5. B. Ung and M. Skorobogatiy "Extreme nonlinear optical enhancement in chalcogenide glass fibers with deep-subwavelength metallic nanowires," Optics Lett., Vol. 36, pp. 2527-2529 (2011)
   
6. Hang Qu and Maksim Skorobogatiy "Liquid-core low-refractive-index-contrast Bragg fiber sensor," Appl. Phys. Lett. 98, 201114 (2011)
   
7. One of the Top 10 Downloaded OE Articles in May 2011
   M. Roze, B. Ung, A. Mazhorova, M. Walther, M. Skorobogatiy, "Suspended core subwavelength fibers: towards practical designs for low-loss terahertz guidance," Optics Express, Vol. 19, p. 9127 (2011)
   
8. B. Ung, A. Dupuis, K. Stoeffler, C. Dubois, M. Skorobogatiy, "High-refractive-index composite materials for terahertz waveguides: trade-off between index contrast and absorption loss," J. Opt. Soc. Am. B, Vol. 28, p. 917 (2011)
   
9. A. Dupuis, K. Stoeffler, B. Ung, C. Dubois, and M. Skorobogatiy, "Transmission measurements of hollow-core THz Bragg fibers," J. Opt. Soc. Am. B, Vol. 28, p. 896 (2011)
   

1. Invited Talk: M. Skorobogatiy, B. Ung, A. Mazhorova, M. Rozé, A. Dupuis, "Plastic fibers for terahertz wave guiding," ECOC 2011, Tu.6.LeCervin.1, Geneva, Switzerland, September 18-22, 2011.
   
2. Invited Talk: B. Ung, M. Skorobogatiy, "Design and fabrication of photonic crystal and plasmonic waveguides for bio and chemical sensing; applications from the visible to THz spectral range," FiO 2011/LS XXVII, San Jose, California, USA, 16-20 October, 2011.
   
3. Invited Talk: H. Qu, M. Skorobogatiy, “All-polymer Photonic Bandgap Bragg Fibers for Bio-chemical Sensors and Spectrometers”, K-1 17th Microoptics Conference (MOC’11), Sendai, Japan, 2011.
   
4. Invited Talk: M. Skorobogatiy, “Designing Living Breathing T-shirt”, Canadian Association of Physicists Congress (CAP), Saint-John, NF, Canada, 2011.
   
5. H. Qu, B. Ung, and M. Skorobogatiy, "Liquid filled hollow core photonic bandgap fiber sensor," in Optical Sensors, OSA Technical Digest (CD) (Optical Society of America, 2011), paper SWB6.
   
6. A. Mazhorova, M. Skorobogatiy, et al., "Suspended core polyethylene fiber for bio-sensing applications in the terahertz region," in Optical Sensors, OSA Technical Digest (CD) (Optical Society of America, 2011), paper STuC3.
   
7. B. Ung, M. Rozé, A. Mazhorova, M. Walther, and M. Skorobogatiy, "Suspended core subwavelength fibers for practical low-loss terahertz guidance," in Optical Sensors, OSA Technical Digest (CD) (Optical Society of America, 2011), paper STuC2.
   
8. B. Ung, and M. Skorobogatiy "Giant nonlinear optical enhancement in chalcogenide glass fibers with deep-subwavelength metallic nanowires," Proc. CLEO, JTuI44, 2011.
   
9. B. Ung, M. Rozé, A. Mazhorova, M. Walther, and M. Skorobogatiy "Suspended core polymer fibers with isolated mode for terahertz guiding," Proc. CLEO, CThN4, 2011.
   
10. C. Reinhardt, A. Evlyukhin, W. Cheng, R. Kiyan, A. Kuznetsov, B. Chichkov, M. Skorobogatiy, and A. Markov, "Plasmonic Waveguides with Photonic Bandgab Connement," NanoMeta 2011, TUE4f.60, Austria 2011.
    

1. A. Mazhorova, J.F. Gu, A. Dupuis, M. Peccianti, O. Tsuneyuki, R. Morandotti, H. Minamide, M. Tang, Y. Wang, H. Ito, and M. Skorobogatiy "Composite THz materials using aligned metallic and semiconductor microwires, experiments and interpretation," Optics Express, vol. 18, p. 24632 (2010)
   
2. I. Sayed, J. Berzowska, and M. Skorobogatiy "Jacquard-woven photonic bandgap fiber displays," Research Journal of Textile and Apparel, vol. 14, p. 97 (2010)
   
3. J.F. Gu, S. Gorgutsa, and M. Skorobogatiy "Soft capacitor fibers using conductive polymers for electronic textiles," Smart Mater. Struct., vol. 19, 115006 (2010)
   
4. Q. Hang, B. Ung, I. Syed, N. Guo, and M. Skorobogatiy "Photonic bandgap fiber bundle spectrometer," Applied Optics, vol. 49, 4791 (2010)
   
5. M. Skorobogatiy, "Single step fabrication of highly sensitive biosensors," SPIE Newsroom, DOI: 10.1117/2.1201008.002988
   
6. A. Dupuis, A. Mazhorova, F. Desevedavy, M. Roze, M. Skorobogatiy, "Spectral characterization of porous dielectric subwavelength THz fibers fabricated using a microstructured molding technique," Opt. Express, vol. 18, pp. 13813-13828 (2010)
   
7. B. Ung, M. Skorobogatiy, "Chalcogenide microporous fibers for linear and nonlinear applications in the mid-infrared," Optics Express, vol. 18, pp. 8647-8659 (2010)
   
8. K. Stoeffler, C. Dubois, A. Ajji, N. Guo, F. Boismenu, M. Skorobogatiy "Fabrication of all-plastic photonic bandgap Bragg fibers using rolling of PS/PMMA multilayer films," Polymer Engineering and Science, vol. 50, pp. 1122-1127 (2010)
   
9. J.F. Gu, S. Gorgutsa, and M. Skorobogatiy "Soft capacitor fibers for electronic textiles," Appl. Phys. Lett., vol. 97, 133305 (2010)
   
10. Book Chapter: M. Skorobogatiy, Resonant bio-chemical sensors based on Photonic Bandgap waveguides and fibers. “Optical guided-wave Chemical and Biosensors II,” Springer Series on Chemical Sensors and Biosensors 8(Editors: Prof. Dr. Akhlesh Lakhtakia, et al., Springer-Verlag Berlin Heidelberg 2010, DOI 10.1007/978-3-642-02827-4_3), pp. 43-72
    

1. A. Mazhorova, J.F. Gu, S. Gorgutsa, M. Peccianti, R. Morandotti, T. Ozaki, M. Tang, H. Minamide, H. Ito, M. Skorobogatiy, "THz metamaterials using aligned metallic or semiconductor nanowires," We-P.31, The 35th International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz 2010.
   
2. B. Ung, A. Dupuis, M. Skorobogatiy, "High refractive index titania-doped polymers for THz hollow Bragg fibers: how absorption losses limit the index contrast," We-B2.5, The 35th International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz 2010.
   
3. A. Dupuis, A. Mazharova, F. Desevedavy, M. Skorobogatiy, "Propagation loss measurements of porous THz subwavelength fibers," Tu-B2.5, The 35th International Conference on Infrared, Millimeter, and Terahertz Waves, IRMMW-THz 2010.
   
4. H. Qu, B. Ung, F. Boismumu, N. Guo, A. Depuis, M. Skorobogatiy, Photonic Bandgap Fiber Bundle Spectrometer Optical Sensors (Sensors) 2010 paper: SThB5
   
5. M. Skorobogatiy, "Design and Fabrication of Photonic Crystal Fibers for Plasmonic Sensing, Applications from the Visible to THz," Optical Sensors (Sensors) 2010 paper: SThC3
   
6. Invited Talk: M. Skorobogatiy, "Design and fabrication of photonic crystal fibers for plasmonic sensing, applications from the visible to THz," CTuLL, CLEO/QELS. CLEO Symposium on Novel Optical Fibers: Microstructured and Micro-filled Fibers, San Jose, California, USA, May 2010.
   
7. A. Dupuis, A. Mazhorova, F. Desevedavy, M. Skorobogatiy, "Loss and Spectral Measurements of Porous and Non-Porous Subwavelength THz Fibers," JWA117, CLEO 2010.
   
8. B. Ung, M. Skorobogatiy, "Microporous fibers for nonlinear applications in the mid-infrared," CTuT5, CLEO 2010.
   
9. Invited Talk: J.F. Gu, M. Skorobogatiy, "All-fiber capacitance textiles for energy storage and sensing applications," Smart Fabrics, Miami, Florida, USA, April 2010.
   
10. Invited Talk: M. Skorobogatiy, "Photonic crystal fibers for plasmon-assisted bio- and chemical sensing, overview of the design, fabrication, and applications from visible to THz," 7682-3, SPIE Defense, Security, and Sensing, Orlando, Florida, USA, April 2010.
    
11. I. Sayed, J. Berzowska, and M. Skorobogatiy, "Color tunable photonic textiles for wearable display applications," Proc. SPIE 7690, Three-Dimensional Imaging, Visualization, and Display 2010 and Display Technologies and Applications for Defense, Security, and Avionics IV, 76901G (Presented at SPIE Defense, Security, and Sensing, Orlando, Florida, United States; Published: 14 May 2010); https://doi.org/10.1117/12.850855
    
12. J. Berzowska, M. Skorobogatiy, "Karma Chameleon: Bragg Fiber Jacquard-Woven Photonic Textiles," Conference on Tangible, Embedded, and Embodied Interaction, p. 297, 2010.
    

1. K. Stoeffler, C. Dubois, A. Ajji, N. Guo, F. Boismenu, M. Skorobogatiy "All-polymeric photonic bandgap polystyrene/polymethyl methacrylate Bragg fibers," Society of Plastic Engineeres, Plastic Research Online, 10.1002/spepro.002597.
   
2. M. Skorobogatiy, A. Kabashin, L. Shi, "Spectral, amplitude and phase sensitivity of a plasmonic gas sensor in a metallic photonic crystal slab geometry. Comparison of the near and far field phase detection strategies," Sensors and Actuators: B. Chemical vol. 143, 76–86 (2009)
   
3. Invited Review: M. Skorobogatiy, "Microstructured and Photonic Bandgap fibers for applications in the resonant bio- and chemical sensors," Journal of Sensors, Vol. 2009, 524237 (2009)
   
4. B. Gauvreau, F. Desevedavy, N. Guo, D. Khadri, A. Hassani and M. Skorobogatiy, "High numerical aperture polymer microstructured fiber with three super-wavelength bridges," Journal of Optics A: Pure and Applied Optics, vol. 11, 085102 (2009)
   
5. L. Shi, P. Pottier, M. Skorobogatiy and Y.-A. Peter, " Tunable structures comprising two photonic crystal slabs – optical study in view of multi-analyte enhanced detection," Optics Express, vol. 17, pp. 10623-10632 (2009)
   
6. A. Hassani, M. Skorobogatiy, "Photonic crystal fiber-based plasmonic sensors for the detection of bio-layer thickness," JOSA B, Vol. 26 Issue 8, pp. 1550-1557 (2009)
   
7. P.-R. Loh, A.F. Oskooi, M. Ibanescu, M. Skorobogatiy, and S.G. Johnson. "A fundamental relation between phase and group velocity, and application to failure of PML in backward-wave structures," Phys. Rev. E, vol. 79, 065601, (2009)
   
8. A. Dupuis, J.-F. Allard, D. Morris, K. Stoeffler, C. Dubois, and M. Skorobogatiy, "Fabrication and THz loss measurements of porous subwavelength fibers using a directional coupler method," Opt. Express, vol. 17, pp. 8012–8028 (2009)
   
9. Book: M. Skorobogatiy, J. Yang, “Fundamentals of photonic crystal guiding,” (Cambridge University Press, 2009), 312pp., 108 figs.
   

1. Invited Talk: M. Skorobogatiy, "Polymer microstructured optical fibers - overview of the novel geometries and functional plastics for a variety of applications including photonic textiles and high bit rate data communications, low-loss mid-ir and thz guiding, as well as plasmonic sensing and nanophotonics," the 15th Microoptics Conference, M1, p.Tokyo, Japan, October 2009.
   
2. Plenary Talk: M. Skorobogatiy, "Transitioning from micro to nano-photonics with Photonic Crystal Fibers," the 8th China International Nanoscience and Technology Symposium, Xiangtan, China, October 2009
   
3. Invited Talk: M. Skorobogatiy, "Introducing Nanotechnology into Optical Fibers," Annual Congress of the Canadian Association of Physicists, Moncton, Canada, June 2009.
   
4. Invited Talk: M. Skorobogatiy, "Merging photonic crystal waveguides and plasmonics - enabling technology for compact, while highly sensitive sensors from visible to terahertz" SPIE Photonics North, Ottawa, Canada, May 2009.
   
5. Invited Tutorial: K. Shicker, M. Skorobogatiy, J. Berzowska, "Photonic textiles, overview of the technology, applications and commercialization opportunities," 5th Smart Fabrics conference, Rome, Italy, March 2009.
   
6. Invited Talk: M. Skorobogatiy, "Photonic Band Gap waveguides for micro and nano photonics," SPIE and OSA sponsored Young Optical Scientists Conference, Moscow, Russia, February 2009.
   
7. A. Dupuis, A. Hassani, M. Skorobogatiy, "Design and Fabrication of Subwavelength THz Fibers with Multiple Holes," CThQ6, CLEO 2009.
   
8. A. Hassani, M. Skorobogatiy, "Ferroelectric PVDF-Based Surface Plasmon Resonance-Like Integrated Sensor at Terahertz Frequencies for Gaseous Analytes," CMI6, CLEO 2009.
   
9. B. Gauvreau, N. Guo, K. Shicker, K. Stoeffler, F. Boismenu, A. Ajji, C. Dubois, M. Skorobogatiy "Colorful Photonic Band Gap Fiber-Based Textiles," CMHH4, CLEO 2009.
   
10. J. Berzowska, M. Skorobogatiy, "Karma Chameleon: Jacquard-Woven Photonic Fiber Display" SIGGRAPH 2010.
    
11. L. Labonté, E. Pone, M. Skorobogatiy, N. Godbout, S. Lacroix, and D. Pagnoux, "Analysis of the birefringence of solid-core air-silica microstructured fibers," Proc. SPIE 7357, Photonic Crystal Fibers III, 73570N (Presented at SPIE Optics + Optoelectronics, Prague, Czech Republic; Published: 19 May 2009); https://doi.org/10.1117/12.820603
    

1. A. Hassani, M. Skorobogatiy, "Surface plasmon resonance-like integrated sensor at terahertz frequencies for gaseous analytes," Opt. Express, Vol. 16, pp. 20206–20214 (2008)
   
2. L. Shi, P. Pottier, Y.-A. Peter, M. Skorobogatiy, "Guided-mode resonance photonic crystal slab sensors based on bead monolayer geometry," Opt. Express, Vol. 16, pp. 17962-17971 (2008)
   
3. B. Gauvreau, N. Guo, K. Schicker, K. Stoeffler, F. Boismenu, A. Ajji, R. Wingfield, C. Dubois, M. Skorobogatiy, "Color-changing and color-tunable photonic bandgap fiber textiles," Opt. Express, Vol. 16, pp. 15677-15693 (2008)
   
4. B. Gauvreau, K. Schicker, N. Guo, C. Dubois, R. Wingfield, M. Skorobogatiy, "Color-on-demand photonic textiles," The Textile Journal, Vol. 125, pp. 70-81 (2008)
   
5. M. Skorobogatiy, K. Saitoh, M. Koshiba, "Full-vectorial coupled mode theory for the evaluation of macro-bending loss in multimode fibers. Application to the hollow-core photonic bandgap fibers," Opt. Express, Vol. 16, pp. 14945-14953 (2008)
   
6. A. Hassani, A. Dupuis, and M. Skorobogatiy, "Surface Plasmon Resonance-like fiber-based sensor at terahertz frequencies," JOSA B, Vol. 25, pp. 1771-1775 (2008)
   
7. A. Hassani, A. Dupuis, and M. Skorobogatiy, "Porous polymer fibers for low-loss Terahertz guiding," Opt. Express, Vol. 16, pp. 6340-6351 (2008)
   
8. A. Dupuis, N. Guo, Y. Gao, O. Skorobogata, B. Gauvreau, C. Dubois, M. Skorobogatiy, "Fabrication strategies and potential applications of the "green" microstructured optical fibers" Journal of Biomedical Optics, Vol. 13, 054003 (2008)
   
9. Invited Paper: A. Hassani, B. Gauvreau, M. Fassi Fehri, A. Kabashin, and M. A. Skorobogatiy, "Photonic crystal fiber and waveguide-based Surface Plasmon Resonance sensors for applications in the visible and near-IR," Electromagnetics, Special Issue is Surface Waves and Complex Mediums, Vol. 28, pp. 198-213 (2008)
   
10. A. Hassani, A. Dupuis, and M. Skorobogatiy, "Low Loss Porous Terahertz Fibers Containing Multiple Subwavelength Holes," Appl. Phys. Lett, vol. 92, 071101 (February 19, 2008)
    

1. Invited Exposition Display: B. Gauvreau, K. Schicker, N. Guo, C. Dubois, R. Wingfield, M. Skorobogatiy, "Colour-on-demand photonic textiles using plastic photonic bandgap fibres," Futurotextiel 2008, Kortrijk, Belgium.
   
2. Invited Talk: B. Gauvreau, K. Schicker, N. Guo, C. Dubois, R. Wingfield, M. Skorobogatiy, "Color-on-demand photonic textiles," ExpoHightex 2008, Montréal, Canada.
   
3. A. Hassani, A. Dupuis, M. Skorobogatiy, "Highly porous plastic fibers for low-loss Terahertz guiding," European Optical Society Annual Meeting, Paris, France (EOSAM), Topical Meeting on Terahertz Science and Technology - TOM 2, 2008
   
4. A. Hassani, A. Dupuis, M. Skorobogatiy, "Surface Plasmon Resonance-like fiber sensors in terahertz,” EOSAM, TOM 2, 2008
   
5. M. Skorobogatiy, A. Kabashin, "Plasmon excitation by the Gaussian-like core mode of a photonic crystal waveguide," EOSAM, Topical Meeting on Biophotonics - TOM 1, 2008
   
6. A. Dupuis, N. Guo, Y. Gao, M. Skorobogata, B. Gauvreau, C. Dubois, M. Skorobogatiy, "Fabrication strategies and potential applications of the ”green” microstructured optical fibers," EOSAM, TOM 1, 2008
   
7. C. Dubois, M. Skorobogatiy, A. Ajji, "Fabrication of 1D photonic crystals based on hollow all-polymer fibers," Annual Meeting of the Polymer Processing Society, Sorrento, Italy, S21-990, 2008
   
8. Invited Talk: E. Pone, M. Skorobogatiy, "Modal analysis of straight and bent photonic crystal fibers using the boundary integral method for light transmission, sensing and plasmonic applications," Progress in Electromagnetics Research Symposium, PIERS 2008.
   
9. A. Hassani, B. Gauvreau, M. Skorobogatiy, "Novel Photonic Crystal Fiber Sensors Using Splitting of a Degenerate Plasmonic Doublet," CMJ1, CLEO 2008.
   
10. E. Pone, A. Hassani, S. Lacroix, M. Skorobogatiy, "A Pressure Sensor Based on the Loss Birefringence of a Microstructured Optical Fiber Containing Metal Coated Elliptical Inclusions," CMZ3, CLEO 2008.
    
11. A. Dupuis, N. Guo, B. Gauvreau, A. Hassani, E. Pone, F. Boismenu, M. Skorobogatiy, ""Colorful" Solid-Core Bragg Fibers Guiding in the Visible," CTuMM2, CLEO 2008.
    
12. A. Dupuis, N. Guo, Yan Gao, B. Gauvreau, C. Dubois, M. Skorobogatiy, "Prospects for "Green" Microstuctured Optical Fibers," CTuMM5, CLEO 2008.
    
13. B. Gauvreau, D. Khadri, N. Guo, M. Skorobogatiy "Suspended Core High Numerical Aperture Multimode Polymer Fiber," CThV7, CLEO 2008.
    
14. A. Hassani, A. Dupuis, M. Skorobogatiy, "Low Loss THz Fibers with Multiple Subwavelength Holes," JWA47, CLEO 2008.
    
15. Invited Talk:M. Skorobogatiy, "Plastic photonic crystal fibers for light transmission, sensing, and smart textiles applications," Annual Congress of the Canadian Association of Physicists, CAP 2008.
    
16. A. Dupuis, N. Guo, B. Gauvreau, A. Hassani, E. Pone, F. Boismenu, M. Skorobogatiy, "All-Fiber Spectral Filtering with Solid Core Photonic Band Gap Bragg Fibers," Technical Digest OFC, OThM3, 2008.
    
17. E. Pone, A. Hassani, S. Lacroix, M. Skorobogatiy, "Accurate Modal Analysis of Microstructured Optical Fibers with the Boundary Integral Method," Technical Digest OFC, OThR5, 2008.
    
18. Invited Talk: A. Dupuis, A. Hassani, and M. Skorobogatiy, "Designs of porous polymer THz fibers," Proc. SPIE 6892, Ultrafast Phenomena in Semiconductors and Nanostructure Materials XII, 68921G (Presented at Integrated Optoelectronic Devices 2008, San Jose, California, United States; Published: 14 February 2008); https://doi.org/10.1117/12.762332
    

1. A. Dupuis, N. Guo, B. Gauvreau, A. Hassani, E. Pone, F. Boismenu, and M. Skorobogatiy, "Guiding in the visible with "colorful" solid-core Bragg fibers," Opt. Lett., vol. 32, 2882-2884 (2007)
   
2. B. Gauvreau, A. Hassani, M. Fassi Fehri, A. Kabashin, and M. A. Skorobogatiy, "Photonic bandgap fiber-based Surface Plasmon Resonance sensors," Opt. Express, vol. 15, 11413-11426 (2007)
   http://www.opticsinfobase.org/abstract.cfm?URI=oe-15-18-11413
   
3. E. Pone, A. Hassani, S. Lacroix, A. Kabashin, and M. Skorobogatiy, "Boundary integral method for the challenging problems in bandgap guiding, plasmonics and sensing," Opt. Express, Vol. 15, 10231-10246 (2007)
   http://www.opticsinfobase.org/abstract.cfm?URI=oe-15-16-10231
   
4. A. Hassani, M. Skorobogatiy, “Design criteria for the Microstructured Optical Fiber-based Surface Plasmon Resonance sensors,” JOSA B, Vol. 24, 1423-1429 (2007)
   
5. M. Skorobogatiy and A. Dupuis, “Ferroelectric all-polymer hollow Bragg fibers for terahertz guidance,” Appl. Phys. Lett., Vol. 90, 113514 (2007)
   
6. M. Skorobogatiy and N. Guo, “Bandwidth enhancement by differential mode attenuation in multimode photonic crystal Bragg fibers,” Opt. Lett., Vol. 32, p. 900 (2007)
   
7. A. Hassani, E. Pone, M. Skorobogatiy, “Heating of microstructured optical fibers due to absorption of the propagating light,” J. Opt. Soc. Am. B, Vol. 24, pp. 756-762 (2007)
   
8. A. Dupuis, N. Guo, Y. Gao, N. Godbout, S. Lacroix, C. Dubois, and M. Skorobogatiy “The prospective for the biodegradable microstructured optical fibers,” Opt. Lett., Vol. 32, pp. 109-111 (2007)
   

1. Invited Talk: M. Skorobogatiy, "Plastic photonic crystal fibers for applications in colourful textiles," Plastic Electronics 07, Smart Textiles, Frankfurt, Germany 2007.
   
2. A. Hassani, B. Gauvreau, M. Fassi Fehri, A. Kabashin, M. Skorobogatiy, "Photonic bandgap fiber-based Surface Plasmon Resonance sensors," Workshop on Nanophotonics and Plasmonics, Sao Paolo, Brazil 2007.
   
3. E. Pone, A. Hassani, M. Skorobogatiy, "Loss birefringence of a Microstructured Optical Fiber containing metal coated elliptical inclusions. Prospective in pressure sensing," Workshop on Nanophotonics and Plasmonics, Sao Paolo, Brazil 2007.
   
4. M. Skorobogatiy,N. Guo, "Bandwidth Enhancement by Differential Mode Attenuation in Multimode Photonic Crystal Bragg Fibers," CLEO, CWF3, 2007. Section: Photonic Bandgap Fibers.
   
5. A. Hassani, M. Skorobogatiy, "Practical Design of Microstructured Optical Fibers for Surface Plasmon Resonance Excitation," CLEO, CWO4, 2007. Section: Microstructured Fibers and Applications.
   
6. M. Skorobogatiy, "Ferroelectric All-Polymer Hollow Bragg Fibers for THz," CLEO, CThLL4, 2007. Section: Terahertz Waveguides.
   
7. M. Skorobogatiy,A. Kabashin, "Photon Crystal Waveguide-Based Surface Plasmon Resonance Biosensor," CLEO, CThZ3, 2007. Section: Applications of Photonic Crystals.
   
8. A. Hassani, M. Skorobogatiy, "Practical Design of Microstructured Optical Fibers for Surface Plasmon Resonance Sensing," OFC, OThA5, 2007. Technical Digest.
   
9. M. Skorobogatiy, "Design and Fabrication of Ferroelectric All-Polymer Hollow Bragg Fibers for THz Guidance," OFC, JWa98, 2007. Technical Digest.
   
10. Key Note Talk: M. Skorobogatiy, "Design and fabrication of plastic microstructured fibers for applications in guiding, sensing and advanced textiles," The 4th International Symposium on Ubiquitous Knowledge Network Environment, Sapporo, Japan, March 2007.
    

1. E. Pone, C. Dubois, N. Guo, S. Lacroix,and M. Skorobogatiy “Newtonian and non-Newtonian models of the hollow all-polymer Bragg fiber drawing,” Journal of Lightwave Technology, vol. 24, p. 4991 (2006)
   
2. A. Hassani, M. Skorobogatiy "Design of the microstructured optical fiber-based surface plasmon resonance sensors with enhanced microfluidics," Opt. Express, vol. 14, pp. 11616-11621 (2006)
   http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-24-11616
   
3. M. Skorobogatiy and A.V. Kabashin, “Photon Crystal waveguide-based surface plasmon resonance bio-sensor,” Appl. Phys. Lett., Vol 89, 143518 (2006)
   
4. M. Skorobogatiy, A. Kabashin "Plasmon excitation by the Gaussian-like core mode of a photonic crystal waveguide," Optics Express, vol. 14, pp. 8419-8424 (2006)
   http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-18-8419
   
5. E. Pone, C. Dubois, N. Guo, Y. Gao, A. Dupuis, F. Boismenu, S. Lacroix, and M. Skorobogatiy, "Drawing of the hollow all-polymer Bragg fibers," Opt. Express, vol. 14, pp. 5838-5852 (2006)
   http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-13-5838
   
6. N. J. Florous, K. Saitoh, T. Murao, M. Koshiba, and M. Skorobogatiy, "Non-proximity resonant tunneling in multi-core photonic band gap fibers: An efficient mechanism for engineering highly-selective ultra-narrow band pass splitters," Optics Express, vol. 14, pp. 4861-4872 (2006)
   http://www.opticsinfobase.org/abstract.cfm?URI=oe-14-11-4861
   
7. Y. Gao, N. Guo, B. Gauvreau, M. Rajabian, O. Skorobogata, E. Pone, O. Zabeida, L. Martinu, C. Dubois, M. Skorobogatiy "Consecutive Solvent Evaporation and Co-Rolling Techniques for Polymer Multilayer Hollow Fiber Preform Fabrication," Journal of Materials Research, vol. 21, pp. 2246-2254 (2006)
   
8. N.I. Florous, K. Saitoh, M. Koshiba, and M. Skorobogatiy "Low-temperature-sensitivity heterostructure photonic-crystal wavelength-selective filter based on ultralow-refractive-index metamaterials ," Appl. Phys. Lett., vol. 88, 121107 (2006)
   
9. M. Skorobogatiy, K. Saitoh, and M. Koshiba, "Transverse lightguides in microstructured optical fibers," Optics Letters, vol. 31, p. 314 (2006)
   
10. M. Skorobogatiy, K. Saitoh, and M. Koshiba, "Transverse lightwave circuits in microstructured optical fibers: resonator arrays," Optics Express, vol. 14, pp. 1439-1450 (2006)
    

1. M. Skorobogatiy and A. Kabashin, "Plasmon excitation by the Gaussian-like core mode of a photonic crystal waveguide or a fiber," 18th International Conference on Optical Fiber Sensors (OFS), ThE62, Cancun, Mexico, Oct. 2006.
   
2. A. Dupuis, Y. Gao, N. Guo, E. Pone, N. Godbout, S. Lacroix, C. Dubois and M. Skorobogatiy "Biodegradable, double-core, porous optical fiber for sensing applications," (OFS), Wa2, Cancun, Mexico, Oct. 2006.
   
3. A. Dupuis, Y. Gao, N. Guo, E. Pone, N. Godbout, S. Lacroix, C. Dubois, M. Skorobogatiy, “Biodegradable, double-core, porous optical fiber,” 15th Internation Conference on Plastic Optical Fibers (POF), C1-4, Seoul, Korea, Sep. 2006.
   
4. Y. Gao, N. Guo, B. Gauvreau, M. Rajabian, O. Skorobogata, E. Pone, O. Zabeida, L. Martinu, C. Dubois, M. Skorobogatiy, “Consecutive solvent evaporation and co-rolling techniques for polymer multilayer hollow fiber preform fabrication,” (POF), H1-2, Seoul, Korea, Sep. 2006.
   
5. N. Guo, Y. Gao, A. Dupuis, E. Pone, S. Lacroix, C. Dubois, M. Skorobogatiy, “Fabrication of the hollow all-polymer Bragg fibers,” (POF), C2-4, Seoul, Korea, Sep. 2006.
   
6. E. Pone, C. Dubois, N. Guo, Y. Gao, A. Dupuis, S. Lacroix, M. Skorobogatiy, "Fabrication of the hollow all-polymer Bragg fibers," European Conference on Optical Communication (ECOC), We4.4.6, Cannes, France, Sep. 2006.
   
7. K. Saitoh, N.J. Florous, T. Murao, M. Koshiba, and M. Skorobogatiy, “Non-Proximity Resonant Tunneling in Multi-Core Photonic Band Gap Fibers: A Revolutionary Technology for All-Fiber Integrated Assemblies,” (ECOC), We3.P.10, Cannes, France, Sep. 2006.
   
8. K. Saitoh, N.J. Florous, M. Koshiba, M. Skorobogatiy "Multi-Core Photonic Band-Gap Fiber Splitters Based on Highly-Selective Non-Proximity Resonant Coupling," The 11th OptoElectronics and Communications Conference (OECC), Taiwan, June 2006.
   
9. Invited Talk: M. Skorobogatiy, "Polymer Microstructured Fibers for Bio-medical Applications - Overview of the New Materials, Structures and Ideas," 61st Annual Congress of the Canadian Association of Physicists, Section: Biomedical Optics, St. Catherines ON, Canada, June 2006.
   
10. CLEO Post Deadline: A. Dupuis, Y. Gao, N. Guo, E. Pone, N. Godbout, S. Lacroix, C. Dubois and M. Skorobogatiy ''Biodegradable, Double-Core, Porous Optical Fiber,'' paper CPDB5, CLEO 2006, Long Beach CA, USA, May 2006.
    
11. M. Skorobogatiy, "Efficient Antiguiding without Omnidirectional Reflectors," CLEO/QELS, JWB87, Section 03: Fundamentals of Metamaterials, Periodic & Random Media, Long Beach, USA, May 2006.
    
12. M. Skorobogatiy, K. Saitoh, and M. Koshiba, "Transverse lightwave circuits in MOFs: waveguides and resonator arrays," CLEO/QELS, JWB81, Section 03: Fundamentals of Metamaterials, Periodic & Random Media, Long Beach, USA, May 2006.
    
13. M. Skorobogatiy, A.V. Kabashin, "Plasmon excitation by the Gaussian-like core mode of a photonic crystal waveguide," European Optical Society Topical Meeting on Molecular Plasmonic Devices, Switzerland, April 2006.
    
14. E. Pone, C. Dubois, N. Guo, Y. Gao, A. Dupuis, S. Lacroix, and M. Skorobogatiy, "Drawing of Hollow, Multilayered All-polymer Fibers," in Smart Nanotextiles, edited by D. Diamond, X. Tao, G. Tröster (Mater. Res. Soc. Symp. Proc. 920, Warrendale, PA, 2006), 0920-S01-05.
    
15. Key Note Talk: M. Skorobogatiy, "Microstructured Optical Fibers: Overview of Novel Materials and Geometries for Applications Beyond Telecom," The 3rd International Symposium on Ubiquitous Knowledge Network Environment, Sapporo, Japan, February 2006.
    

1. M. Skorobogatiy, S.A. Jacobs, S.G. Johnson, C. Anastassiou, B. Temelkuran, "Heating of hollow photonic Bragg fibers from field propagation, coupling, and bending," Journal of Lightwave Technology special issue on 'Optical Fibers', vol. 23, 3517 (2005)
   
2. K. Saitoh, N. J. Florous, M. Koshiba, and M. Skorobogatiy, "Design of narrow band-pass filters based on the resonant-tunneling phenomenon in multi-core photonic crystal fibers," Opt. Express, vol. 13, pp. 10327-10335 (2005)
   http://www.opticsexpress.org/abstract.cfm?URI=OPEX-13-25-10327
   
3. M. Skorobogatiy, "Efficient anti-guiding of TE and TM polarizations in low index core waveguides without the need of omnidirectional reflector," Optics Letters, vol. 30, p. 2991 (2005)
   
4. M. Skorobogatiy, "Design principles of multi-fiber resonant directional couplers with hollow Bragg fibers: example of a 3X3 coupler," Optics Letters 30, 2849 (2005)
   
5. M. Skorobogatiy, K. Saitoh, and M. Koshiba, "Transverse lightwave circuits in microstructured optical fibers: waveguides," Opt. Express 13, 7506-7515 (2005),
   http://www.opticsexpress.org/abstract.cfm?URI=OPEX-13-19-7506
   
6. Maksim Skorobogatiy, Guillaume Bégin, and Anne Talneau, "Statistical analysis of geometrical imperfections from the images of 2D photonic crystals ," Opt. Express, vol. 13, pp. 2487-2502 (2005),
   http://www.opticsexpress.org/abstract.cfm?URI=OPEX-13-7-2487
   
7. M. Skorobogatiy, I.J. Park, J.D. Joannopoulos, "The nature of a floating electron," Computational Materials Science, vol. 32, pp.96-106 (2005)
   

1. N. Guo, Y. Gao, B. Gauvreau, O. Skorobogata, M. Rajabian, C. Dubois, O. Zabeida, L. Martinu, and M. Skorobogatiy, "Biocompatible polymers for photonic crystal film formation," SPIE Phot. North, Sept. (2005)
   
2. Invited Talk: M. Skorobogatiy, S. Lacroix, "Matching specialty fibers with applications," 14th International Workshop on Optical Waveguide Theory and Numerical Modelling, Sydney, Australia, July (2005)
   
3. Invited Talk: M. Skorobogatiy, “Semi-analytical methods to treat dynamic photonic crystal systems. Application to rigid vibrations of a photonic crystal and induced interband transitions," SIAM, Applications of Dynamical Systems, Salt Lake City, May (2005)
   
4. M. Skorobogatiy, K. Saitoh, M. Koshiba, "Directional coupling in hollow Bragg fiber bundles," Optical Fiber Communication Conference, OTuI3, 2005. Technical Digest. Vol. 2, p. 3 (2005)
   
5. M.A. Skorobogatiy, K. Saitoh, and M. Koshiba, "Coupling between two collinear air-core Bragg fibers," Proc. SPIE 5733, Photonic Crystal Materials and Devices III, (Presented at Integrated Optoelectronic Devices 2005, San Jose, California, United States; Published: 13 April 2005); https://doi.org/10.1117/12.589732
   
6. M.A. Skorobogatiy, "Modeling the impact of imperfections in high index-contrast photonic waveguides," Proc. SPIE 5733, Photonic Crystal Materials and Devices III, (Presented at Integrated Optoelectronic Devices 2005, San Jose, California, United States; Published: 13 April 2005); https://doi.org/10.1117/12.589730
   

1. M. Skorobogatiy, Kunimasa Saitoh and Masanori Koshiba, "Coupling between two collinear air-core Bragg fibers," J. Opt. Soc. Am. B, vol. 21, pp.2095-2101 (2004)
   
2. M. Skorobogatiy, "Modeling the impact of imperfections in high-index-contrast photonic waveguides," Physical Review E, vol. 70, p. 46609, (2004)
   
3. M. Skorobogatiy, Kunimasa Saitoh and Masanori Koshiba "Resonant directional coupling of hollow Bragg fibers," Optics Letters, vol. 29, pp. 2112-2114, (2004)
   
4. M. Skorobogatiy, "Hollow Bragg fiber bundles: when coupling helps and when it hurts," Optics Letters, vol. 29, pp. 1479-1481, (2004)
   

1. Invited Talk: M. Skorobogatiy, "New frontiers for old methods - semi-analytical perturbation and coupled mode theories that work in high index contrast systems," SIAM, Nonlinear Waves and Coherent Structures, October, Florida, USA (2004)
   
2. M.A. Skorobogatiy, K. Saitoh, and M. Koshiba, "Hollow Bragg fiber bundles: when coupling helps and when it hurts," Proc. SPIE 5577, Photonics North 2004: Optical Components and Devices, (Presented at Photonics North 2004, Ottawa, Ontario, Canada; Published: 20 December 2004); https://doi.org/10.1117/12.562082
   
3. M. Skorobogatiy, S.A. Jacobs, S.G. Johnson, M. Meunier, and Y. Fink, "Modeling the impact of manufacturing imperfections on photonic crystal device performance: design of perturbation-tolerant PBG components," Proc. SPIE 5450, Photonic Crystal Materials and Nanostructures, (Presented at Photonics Europe, Strasbourg, France; Published: 15 September 2004); https://doi.org/10.1117/12.545249
   

1. G. Dellemann, T.D. Engeness, M. Skorobogatiy, and U. Kolodny, "Perfect mirrors extend hollow-core fiber applications," Photonics Spectra, vol. 37, pp. 60-64, (2003)
   
2. M. Skorobogatiy, C. Anastassiou, S. G. Johnson, O. Weisberg, T. D. Engeness, S. A. Jacobs, R. U. Ahmad, and Y. Fink, "Quantitative characterization of higher-order mode converters in weakly multimoded fibers," Opt. Express, vol. 11, pp. 2838-2847, (2003)
   
3. T. D. Engeness, M. Ibanescu, S. G. Johnson, O. Weisberg, M. Skorobogatiy, S. Jacobs, and Y. Fink, "Dispersion tailoring and compensation by modal interactions in OmniGuide fibers," Optics Express, vol. 11, pp. 1175-1198, (2003)
   
4. M. Skorobogatiy, Steven G. Johnson, Steven A. Jacobs, and Yoel Fink, "Dielectric profile variations in high-index-contrast waveguides, coupled mode theory, and perturbation expansions," Physical Review E, vol. 67, p. 46613, (2003)
   
5. Mihai Ibanescu, Steven G. Johnson, Marin Soljacic, J. D. Joannopoulos, and Yoel Fink, Ori Weisberg, Torkel D. Engeness, Steven A. Jacobs, and M. Skorobogatiy, "Analysis of mode structure in hollow dielectric waveguide fibers," Physical Review E, vol. 67, p. 46608, (2003)
   

1. Skorobogatiy, M. (OmniGuide Commun., Cambridge, MA, USA); Engeness, T.D.; Johnson, S.G.; Weisberg, O.; Jacobs, S.A.; Fink, Y. "Group-velocity dispersion and deterministic PMD of modes in a hollow omnidirectional Bragg fiber," 2003 Digest of LEOS Summer Topical Meeting (Cat. No.03TH8701), 2003, p TuA4.5/64-5
   
2. Skorobogatiy, M. (OmniGuide Commun., Cambridge, MA, USA); Jacobs, S.A.; Johnson, S.G.; Weisberg, O.; Engeness, T.D.; Fink, Y. "Power capacity of hollow Bragg fibers, CW and pulsed CW sources," 2003 Digest of LEOS Summer Topical Meeting (Cat. No.03TH8701), 2003, p TuA4.6/66-7
   
3. Johnson, S.G. (Dept. of Phys., MIT, Cambridge, MA, USA;); Povinelli, M.L.; Bienstman, P.; Skorobogatiy, M.; Soljacic, M.; Ibanescu, M.; Lidorikis, E.; Joannopoulos, J.D. "Coupling, scattering, and perturbation theory: Semi-analytical analyses of photonic-crystal waveguides," Proceedings of 2003 5th International Conference on Transparent Optical Networks. Conference Proceedings (Cat. No.03EX678), 2003, pt. 1, p 103-9 vol.1
   

1. S.G. Johnson, P. Bienstman, M.A. Skorobogatiy, M. Ibanescu, E. Lidorikis, and J.D. Joannopoulos, "Adiabatic theorem and continuous coupled-mode theory for efficient taper transitions in photonic crystals," Physical Review E, vol. 66, p. 66608, (2002)
   
2. M. Skorobogatiy, S.A. Jacobs, S.G. Johnson, and Y. Fink, "Geometric variations in high index-contrast waveguides, coupled mode theory in curvilinear coordinates," Optics Express, vol. 10, pp. 1227-1243, (2002)
   
3. M. Skorobogatiy, M. Ibanescu, S.G. Johnson, O. Weiseberg, T.D. Engeness, M. Soljacic, S.A. Jacobs, and Y. Fink, "Analysis of general geometric scaling perturbations in a transmitting waveguide. The fundamental connection between polarization mode dispersion and group-velocity dispersion," Journal of Optical Society of America B, vol. 19, pp. 2867-2875, (2002)
   
4. S.G. Johnson, M. Ibanescu, M. Skorobogatiy, O. Weiseberg, J.D. Joannopoulos, and Y. Fink, "Perturbation theory for Maxwell's equations with shifting material boundaries," Physical Review E, vol. 65, p. 66611, (2002)
   

1. S.G. Johnson, M. Ibanescu, M.A. Skorobogatiy, O. Weisberg, T.D. Engeness, M. Soljacic, S.A. Jacobs, J.D. Joannopoulos, and Y. Fink, "Breaking the glass ceiling: hollow OmniGuide fibers," Proc. SPIE 4655, Photonic Bandgap Materials and Devices, (Presented at Symposium on Integrated Optoelectronic Devices, San Jose, California, United States; Published: 25 April 2002); https://doi.org/10.1117/12.463884
   
2. S.G. Johnson, M. Ibanescu, M. Skorobogatiy, O. Weiseberg, T.D Engeness, M. Soljacic, S.A. Jacobs, J.D. Joannopoulos, and Y. Fink, "Breaking the glass ceiling: hollow OmniGuide fibers," Proceedings of the 4th International Conference on Transparent Optical Networks, vol. 2, pp. 5-6 (2002)
   

1. S.G. Johnson, M. Ibanescu, M. Skorobogatiy, O. Weiseberg, T.D. Engeness, M. Soljacic, S.A. Jacobs, J.D. Joannopoulos, and Y. Fink, "Low-Loss Asymptotically Single-Mode Propagation in Large Core OmniGuide Fibers," Optics Express, vol. 9, p. 748, (2001)
   

1. Skorobogatiy M, Mahadevan L, "Folding of Viscous Sheets and Filaments," Europhys Lett, vol. 52, p. 532, (2000)
   
2. M. Skorobogatiy, J.D. Joannopoulos, "Photon Modes in Photonic Crystals Undergoing Rigid Vibrations and Rotations," Physical Review B, vol. 61, p. 15554, (2000)
   
3. M. Skorobogatiy, J.D. Joannopoulos, "Rigid vibrations of a photonic crystal and induced interband transitions," Physical Review B, vol.61, p. 5293, (2000)
   

1. M. Skorobogatiy, J. D. Joannopoulos, "Finite Temperature Path Integral Calculations for Fermions and Bosons. A Grand Canonical Approach," Physical Review B, vol. 60, p.1433, (1999)
   

1. M. Skorobogatiy, Guido Tiana, "Mutations in a Heteropolymeric Chain with Factorized Interaction Matrix," Physical Review E, vol. 58, p.3572, (1998)
   
2. M. Skorobogatiy, H. Guo, M. Zuckerman, "Non-Arrhenius Modes in the Relaxation of Model Proteins," Journal of Chemical Physics, vol.109, pp. 2528-2535, (1998)
   

1. M. Skorobogatiy, H. Guo, M. Zuckerman, "A Deterministic Approach to the Protein Design Problem," Macromolecules, vol. 30(11), pp. 3403-3410, (1997)
   
2. M. Skorobogatyy, H. Guo, M. Zuckerman, "Relaxation in a Perfect Funnel, Role of Energy Levels Statistics," Physical Review E, vol. 55, pp. 7354-7363, (1997)
   

1. M. Skorobogatiy, "Dynamics of a system of bubbles," Quantum, vol. 5, 42-43 (1994)
   

1. A.V. Churenkov, M.A. Skorobogatiy, and A.D. Loiko, "Fibre optic sensor of electrostatic field with mechanical resonator," Proc. SPIE 2361, Second European Conference on Smart Structures and Materials, (Presented at Smart Structures and Materials, Second European Conference, Glasgow, United Kingdom; Published: 13 September 1994); https://doi.org/10.1117/12.184867