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De Lima, E. S., Nemova, G., Loranger, S., & Kashyap, R. (2013). Laser-Induced Cooling of a Yb:Yag Crystal in Air at Atmospheric Pressure. Optics Express, 21(21), 24711-24720. Lien externe
Epstein, R. I., Seletskiy, D. V., Sheik-Bahae, M., Nemova, G., & Kashyap, R. (février 2016). Bottle micro-resonator temperature sensors for laser coolers [Communication écrite]. Optical and Electronic Cooling of Solids, San Francisco, California. Lien externe
Kummara, V. K., Ledemi, Y., Genevois, C., Veron, E., Sauvage, X., Morency, S., Soares De Lima Filho, E., Nemova, G., Allix, M., Messaddeq, Y., & Kashyap, R. (2017). Ytterbium-doped oxyfluoride nano-glass-ceramic fibers for laser cooling. Optical Materials Express, 7(6), 1980-1994. Lien externe
Kummara, V. K., Soares De Lima Filho, E., Ledemi, Y., Nemova, G., Messaddeq, Y., & Kashyap, R. (2016). Development of ytterbium-doped oxyfluoride glasses for laser cooling applications. Scientific Reports, 6(1), 1-12. Disponible
Kummara, V. K., Ledemi, Y., Soares De Lima Filho, E., Nemova, G., Messaddeq, Y., & Kashyap, R. (2016). Development of Yb3+-doped oxyfluoride glass-ceramics with low OH−content containing CaF2nanocrystals for optical refrigeration. Optical Engineering, 56(1). Lien externe
Kummara, V. K., Ledemi, Y., Soares De Lima Filho, E., Loranger, S., Nemova, G., Messaddeq, Y., & Kashyap, R. (février 2016). Progress in rare-earth-doped nanocrystalline glass-ceramics for laser cooling [Communication écrite]. Optical and Electronic Cooling of Solids, San Francisco, CA, United states. Lien externe
Kummara, V. K., Ledemi, Y., Soares De Lima Filho, E., Nemova, G., Messaddeq, Y., & Kashyap, R. (novembre 2015). Ytterbium-doped oxyfluoride nano-glass-ceramic fibers for laser cooling [Communication écrite]. Workshop on Specialty Optical Fibers and their Applications (WSOF 2015), Hong Kong China. Lien externe
Kieffer, J.-C., Nemova, G., Soares De Lima Filho, E., Loranger, S., & Kashyap, R. (juin 2012). Laser cooling with nanoparticles [Communication écrite]. Photonics North 2012, Montréal, Québec. Lien externe
Kashyap, R., & Nemova, G. (2012). Methods for laser cooling of fluorescent materials. (Demande de brevet no US20120312028). Lien externe
Kashyap, R., & Nemova, G. (juillet 2010). Laser induced cooling of solids [Communication écrite]. 9th International Conference on Excitonic and Photonic Processes in Condensed and Nano Materials (EXCON 2010), Brisbane, Australia. Publié dans Physica Status Solidi C: Current Topics in Solid State Physics, 8(1). Lien externe
Kashyap, R., & Nemova, G. (2009). Surface plasmon resonance-based fiber and planar waveguide sensors. Journal of Sensors, 2009, 645162. Disponible
Kashyap, R., & Nemova, G. (janvier 2009). Guidewave surface plasmon-polariton sensors [Communication écrite]. Integrated Optics: Devices, Materials, and Technologies XIII. Lien externe
Kashyap, R., & Nemova, G. (2009). High-power fiber amplifier. (Demande de brevet no US20090231682). Lien externe
Kashyap, R., & Nemova, G. (août 2008). New Perspectives in High‐Power Optical Fiber‐Amplifiers and Solid‐State Laser Cooling [Communication écrite]. 1st Workshop on Specialty Optical Fibers and Their Applications,, São Pedro, SP, Brazil. Lien externe
Loranger, S., Lesage-Landry, A., Soares De Lima Filho, E., Nemova, G., Dantas, N., Morais, P., & Kashyap, R. (février 2013). Spectroscopic and life-time measurements of quantum dot doped glass for optical refrigeration: a feasibility study [Communication écrite]. SPIE OPTO 2013, San Francisco, California (8 pages). Lien externe
Nemova, G. (2024). Brief Review of Recent Developments in Fiber Lasers. Applied Sciences, 14(6), 14062323 (18 pages). Lien externe
Nemova, G. (2022). Laser Cooling and Trapping of Rare-Earth-Doped Particles. Applied Sciences, 12(8), 15 pages. Lien externe
Nemova, G., & Caloz, C. (2021). Heat evacuation from active Raman media using frequency-selective dissipative coupling. Physical Review Research, 3(1), 013050 (6 pages). Disponible
Nemova, G., & Caloz, C. (mars 2021). Heat mitigation with frequency selective passive PT symmetry in active Raman media [Communication écrite]. Photonic Heat Engines: Science and Applications III (7 pages). Lien externe
Nemova, G. (2021). Radiation-Balanced Lasers: History, Status, Potential. Applied Sciences, 11(16), 23 pages. Lien externe
Nemova, G., & Kashyap, R. (janvier 2018). Laser cooling of solids: latest achievements and prospects [Communication écrite]. Optical and Electronic Cooling of Solids III, San Francisco, CA (9 pages). Lien externe
Nemova, G., & Kashyap, R. (2017). Laser cooling of solids under the influence of surface phonon polaritons. Journal of the Optical Society of America B-Optical Physics, 34(2), 483-488. Lien externe
Nemova, G., & Kashyap, R. (février 2017). Surface phonon polaritons as a source of laser cooling perturbation [Communication écrite]. Optical and Electronic Cooling of Solids II, San Francisco, CA, United states. Lien externe
Nemova, G., & Kashyap, R. (2016). Silica bottle resonator sensor for refractive index and temperature measurements. Sensors, 16(1), 1-9. Disponible
Nemova, G. (2016). Laser Cooling: Fundamental Properties and Applications. Lien externe
Nemova, G., & Kashyap, R. (février 2015). Optical refrigeration of Yb3+:YAG nanocrystals [Communication écrite]. SPIE Laser Refrigeration of Solids VIII, San Francisco, California (8 pages). Lien externe
Nemova, G., & Kashyap, R. (2015). Optimization of optical refrig[e]ration in Yb³⁺:YAG samples. Journal of Luminescence, 164, 99-104. Lien externe
Nemova, G., & Kashyap, R. (juillet 2014). Twenty years of laser cooling of solids [Communication écrite]. 6th International Conference on Optical, Optoelectronic and Photonic Materials and Applications (ICOOPMA 2014), Leeds, UK (6 pages). Lien externe
Nemova, G., & Kashyap, R. (février 2014). Temperature dynamics of laser cooling of solids with Yb3+ ions [Communication écrite]. SPIE OPTO, 2014, San Francisco, California, United States. Publié dans Proceedings of SPIE. Lien externe
Nemova, G., & Kashyap, R. (2014). Laser cooling in Yb^3+:YAG. Journal of The Optical Society of America B-optical Physics, 31(2), 340-348. Lien externe
Nemova, G., & Kashyap, R. (avril 2014). Laser cooling of CdSe quantum dots [Communication écrite]. Nanophotonics V, Bruxelles, Belgique. Lien externe
Nemova, G., & Kashyap, R. (2014). Thin-disk athermal laser system. Optics Communications, 319, 100-105. Lien externe
Nemova, G., & Kashyap, R. (juin 2013). Recent advances in laser cooling of solids [Communication écrite]. Photonics North 2013, Ottawa, Canada. Publié dans Proceedings of SPIE. Lien externe
Nemova, G., & Kashyap, R. (février 2013). Laser cooling with rare-earth doped direct band gap semiconductors [Communication écrite]. SPIE OPTO 2013, San Francisco, California, United States. Lien externe
Nemova, G., & Kashyap, R. (2013). Laser cooling with rare-earth-doped direct band-gap semiconductors. Journal of the Optical Society of America B: Optical Physics, 30(5), 1141-1147. Lien externe
Nemova, G., & Kashyap, R. (janvier 2012). Laser cooling with lead-salt colloidal quantum dots doped in a glass host [Communication écrite]. Laser Refrigeration of Solids V, San Francisco, California United States (8 pages). Lien externe
Nemova, G., & Kashyap, R. (2012). Laser Cooling With PbSe Colloidal Quantum Dots. Journal of the Optical Society of America B: Optical Physics, 29(4), 676-682. Lien externe
Nemova, G., & Kashyap, R. (avril 2012). Laser cooling with Tm3+-doped nano-crystals of oxy-fluoride glass ceramic [Communication écrite]. Nanophotonics IV (7 pages). Lien externe
Nemova, G., & Kashyap, R. (2012). Laser cooling with Tm3+-doped oxy-fluoride glass ceramic. Journal of the Optical Society of America B: Optical Physics, 29(11), 3034-3038. Lien externe
Nemova, G. (2012). Optical amplifiers. Non disponible
Nemova, G., & Kashyap, R. (2011). Alternative technique for laser cooling with superradiance. Physical Review A, 83(1), 013404-013404. Lien externe
Nemova, G., & Kashyap, R. (mai 2011). Athermal Ho³⁺-doped amplifier with two pumps [Communication écrite]. Conference on Lasers and Electro-Optics Europe and 12th European Quantum Electronics Conference (CLEO EUROPE-EQEC 2011), Munich, Germany. Lien externe
Nemova, G., & Kashyap, R. (janvier 2011). Breaking the low phonon energy barrier for laser cooling in rare-earth doped hosts [Communication écrite]. Laser Refrigeration of Solids IV, San Francisco, CA, United states. Lien externe
Nemova, G., & Kashyap, R. (juillet 2011). Mid-IR fiber amplifier cooled with Yb³⁺ ions [Communication écrite]. IEEE Photonics Society Summer Topical Meeting, Montréal, QC, Canada. Lien externe
Nemova, G., & Kashyap, R. (2011). Radiation-balanced amplifier with two pumps and a single system of ions. Journal of the Optical Society of America B: Optical Physics, 28(9), 2191-2194. Lien externe
Nemova, G., & Kashyap, R. (mai 2011). Super-radiance and fluorescence are two approaches to laser cooling of solids [Communication écrite]. Photonics North 2011, Ottawa, ON, Canada. Lien externe
Nemova, G., & Kashyap, R. (janvier 2010). High-power fiber lasers with integrated rare-earth optical cooler [Communication écrite]. Laser Refrigeration of Solids III, San Francisco, California, USA. Lien externe
Nemova, G., & Kashyap, R. (2010). Laser cooling of Er3+-doped solids. Optics Communications, 283(19), 3736-3739. Lien externe
Nemova, G., & Kashyap, R. (2010). Laser Cooling of Solids. Reports on Progress in Physics, 73(8). Lien externe
Nemova, G., & Kashyap, R. (2010). Temperature distribution in laser-cooled rare-earth doped solid-state samples. Journal of the Optical Society of America B: Optical Physics, 27(12), 2460-2464. Lien externe
Nemova, G., & Kashyap, R. (avril 2010). Yb3+-doped fiber laser with integrated optical cooler [Communication écrite]. Laser Technology for Defense and Security VI, Orlando, Florida, USA. Lien externe
Nemova, G., & Kashyap, R. (2009). Athermal continuous-wave fiber amplifier. Optics Communications, 282(13), 2571-2575. Lien externe
Nemova, G., & Kashyap, R. (juillet 2009). Athermal Raman Fiber Amplifier [Communication écrite]. Nonlinear Optics : Materials, Fundamentals and Applications (NLO 2009), Honolulu, Hawaii, UAS. Lien externe
Nemova, G., & Kashyap, R. (2009). Fiber amplifier with integrated optical cooler. Journal of the Optical Society of America B: Optical Physics, 26(12), 2237-2241. Lien externe
Nemova, G., & Kashyap, R. (2009). High efficiency solid state laser cooling in Yb3+: ZBLANP fiber with tilted fiber Bragg grating structures. Physica Status Solidi C: Current Topics in Solid State Physics, 6(1), 248-250. Lien externe
Nemova, G., & Kashyap, R. (juin 2009). High-power fiber amplifier with laser cooled cladding [Communication écrite]. Conference on Lasers and Electro-Optics Europe and 11th European Quantum Electronics Conference (CLEO EUROPE-EQEC 2009), Munich, Germany (1 page). Lien externe
Nemova, G. (2009). Laser cooled high-power fiber amplifier. arXiv.org, 1-10. Lien externe
Nemova, G., & Kashyap, R. (2009). LPG assisted high-power fiber amplifier with Er3+ doped cladding. Physica Status Solidi C: Current Topics in Solid State Physics, 6(1), 244-247. Lien externe
Nemova, G., & Kashyap, R. (avril 2009). New designs for Ultra High High-Power Single Transverse Mode Cw fibre lasers [Communication écrite]. 6th International TECNOLASER Event. Meeting of Optic, Life and Heritage (OPTELACIC 2009), La Habana (Cuba). Non disponible
Nemova, G., & Kashyap, R. (janvier 2009). Optimization of tapered fiber sample for laser cooling of solids [Communication écrite]. Laser Refrigeration of Solids II. Lien externe
Nemova, G., & Kashyap, R. (mai 2009). Radiation-balanced Tm3+-doped fiber amplifier [Communication écrite]. Photonics North 2009, Québec, Canada. Lien externe
Nemova, G., & Kashyap, R. (2009). Raman fiber amplifier with integrated cooler. Journal of Lightwave Technology, 27(24), 5597-5601. Lien externe
Nemova, G., & Kashyap, R. (2008). High-Power Long-Period-Grating-Assisted Erbium-Doped Fiber Amplifier. Journal of the Optical Society of America B: Optical Physics, 25(8), 1322-1327. Lien externe
Nemova, G., & Kashyap, R. (juin 2008). Kilowatt-power Er3+ doped cladding fiber amplifier [Communication écrite]. Photonics North 2008. Lien externe
Nemova, G., & Kashyap, R. (2008). Optimization of the Dimensions of an Yb3+:Zblanp Optical Fiber Sample for Laser Cooling of Solids. Optics Letters, 33(19), 2218-2220. Lien externe
Nemova, G., & Kashyap, R. (mai 2008). Optimization of Yb3+:ZBLANP fiber structure for laser cooling [Communication écrite]. Conference on Lasers and Electro-Optics and Conference on Quantum Electronics and Laser Science (CLEO-QELS 2008), San Jose, CA, United States. Lien externe
Nemova, G., Kabashin, A., & Kashyap, R. (juin 2008). Phase interrogation of a planar integrated refractive index sensor [Communication écrite]. Photonics North 2008. Lien externe
Nemova, G., Kabashin, A., & Kashyap, R. (2008). Surface Plasmon-Polariton Mach-Zehnder Refractive Index Sensor. Journal of the Optical Society of America B: Optical Physics, 25(10), 1673-1677. Lien externe
Nemova, G., & Kashyap, R. (2008). Theoretical Model of a Planar Waveguide Refractive Index Sensor Assisted by a Corrugated Long Period Metal Grating. Optics Communications, 281(6), 1522-1528. Lien externe
Nemova, G., & Kashyap, R. (2007). A Compact Integrated Planar-Waveguide Refractive-Index Sensor Based on a Corrugated Metal Grating. Journal of Lightwave Technology, 25(8), 2244-2250. Lien externe
Nemova, G., & Kashyap, R. (avril 2007). Corrugated metal Bragg grating assisted integrated planar waveguide surface plasmon-polariton based sensor [Communication écrite]. Canadian Conference on Electrical and Computer Engineering (CCECE 2007), Vancouver, BC, Canada. Lien externe
Nemova, G., & Kashyap, R. (juillet 2006). Novel fiber Bragg grating assisted plasmon-polariton for bio-medical refractive-index sensors [Communication écrite]. International Conference on Optical and Optoelectronic Properties of Materials and Applications (ICOOPMA 2006), Darwin, Australia. Publié dans Journal of Materials Science: Materials in Electronics, 18(S1). Lien externe
Nemova, G., & Kashyap, R. (octobre 2006). Novel single mode fiber lens coupler for laser-diodes based on long period gratings in a hybrid graded-index multimode fiber [Communication écrite]. 19th Annual Meeting of the IEEE Lasers and Electro-Optics Society, Montréal, Québec. Lien externe
Nemova, G., & Kashyap, R. (2007). Theoretical Model of a Planar Integrated Refractive Index Sensor Based on Surface Plasmon-Polariton Excitation. Optics Communications, 275(1), 76-82. Lien externe
Nemova, G., & Kashyap, R. (2007). Theoretical Model of a Planar Integrated Refractive Index Sensor Based on Surface Plasmon-Polariton Excitation With a Long Period Grating. Journal of the Optical Society of America B: Optical Physics, 24(10), 2696-2701. Lien externe
Nemova, G., Chauve, J., & Kashyap, R. (2006). Design of sidetap fiber Bragg grating filters. Optics Communications, 259(2), 649-654. Lien externe
Nemova, G., & Kashyap, R. (2006). Fiber-Bragg-Grating-Assisted Surface Plasmon-Polariton Sensor. Optics Letters, 31(14), 2118-2120. Lien externe
Nemova, G., & Kashyap, R. (2006). Highly efficient lens couplers for laser-diodes based on long period grating in special graded-index fiber. Optics Communications, 261(2), 249-257. Lien externe
Nemova, G., & Kashyap, R. (2006). Modeling of plasmon-polariton refractive-index hollow core fiber sensors assisted by a fiber Bragg grating. Journal of Lightwave Technology, 24(10), 3789-96. Lien externe
Soares De Lima Filho, E., Quintanilla, M., Vetrone, F., Nemova, G., Kummara, V. K., & Kashyap, R. (février 2015). Characterization of fluoride nanocrystals for optical refrigeration [Communication écrite]. Laser Refrigeration of Solids VIII, San Francisco, California. Lien externe
Soares De Lima Filho, E., Kummara, V. K., Ledemi, Y., Yu, Y.-J., Messaddeq, Y., Nemova, G., & Kashyap, R. (2015). Ytterbium-doped glass-ceramics for optical refrigeration. Optics Express, 23(4), 4630-4640. Lien externe
Soares De Lima Filho, E., Nemova, G., Loranger, S., & Kashyap, R. (février 2014). Direct measurement of laser cooling of Yb:YAG crystal at atmospheric pressure using a fiber Bragg grating [Communication écrite]. Laser Refrigeration of Solids VII, San Francisco, Calif., USA. Lien externe
Soares De Lima Filho, E., Gagné, M., Nemova, G., Kashyap, R., Saad, M., & Bowman, S. (juillet 2011). Sensing of laser cooling with optical fibres [Communication écrite]. 7th International Workshop on Fibre and Optical Passive Components (WFOPC 2011), Montréal, Québec. Lien externe
