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Shailendra Kumar Varshney

Research

  • 1 Microphotonics
  • 2 Fiber Optics And Photonics
  • 3 Nonlinear Photonics
  • 4 Quantum Photonics
  • 5 Optical Wireless Communication

Teaching

  • Basic Electronics (EC29001)
  • Fiber optic, components and Devics (EC60023)
  • Optical Communication (EC60021)

Publications

  • Kurade B. M., Ayyanar N. , Thavasi Raja G. , Varshney S. K., Asymmetric-clad multi-trench fibers with large mode-area and controlled leakage loss, Optical Fiber Technology, 48, 235-241, 2019
  • Saha M., Roy S. , Varshney S. K, Variational approach to study soliton dynamics in a pssive fiber loop resonator with coherently driven phase-modulated external field, Phy. Rev. E, 100, 2019
  • Mondal P., Haldar R. , Mishra V. , Varshney S. K., All-Optical Mode Conversion and Temperature Sensing via Transient Grating in Step-Index Fiber, IEEE Photonics Technology Letters, 30, 2175-2178, 2018
  • Mishra V., Haldar R. , Mondal P. , Varshney S. K, Efficient all-optical transistor action in short-length multimode optical fibers, IEEE J Lightwave Technology, 32, 2582-2588, 2018
  • Mishra V., Singh S. P., Haldar R. , Mondal P. , Varshney S. K, Intermodal nonlinear effects mediated optical event horizon in short-length multimode fibe, Physical Review A, 96, 2017
  • V. Mishra, S. P. Singh, R. Haldar, and S.K. Varshney, Sub-Wavelength Dual Capillaries-Assisted Chalcogenide Optical Fibers: Unusual Modal Properties in Mid-IR (2-5 ?m) Spectral Range, IEEE J. Selected Topics in Quantum Electronics, 22, 2016
  • Raja G. T., Haldar R. , Varshney S. K., Numerical analysis of lasing characteristics in highly bend-compensated large mode-area ytterbium-doped double-clad leakage-channel fibers, Applied Optics, 54, 10314-10320, 2015
  • Raja G. T., Varshney S. K., Large mode area modified-clad leakage channel fibers with low bending and higher differential losses, J. Optics (IOP), 16, 2014
  • Maity A., Varshney S. K., Ultrasensitive properties of a long-period grating inscribed in a dual-mode photonic crystal fiber, IEEE Sensors, 14, 2833-2840, 2014
  • Singh S. P., Varshney S. K, Tunable optical parametric amplification characteristics of liquid-filled chalcogenide photonic crystal fibers, Optics Letters, 38, 3846-3849, 2013
  • Dutt A., Mahapatra S. , Varshney S. K., Design of tunable couplers using magnetic fluid filled three-core optical fibers, IEEE Photonics Technology Letters, 24, 164-166, 2012
  • K. Saitoh, S.K. Varshney, K. Sasaki, L. Rosa, M. Koshiba, M. Pal and S.K. Bhadra, Limitation on Effective Area of Bent Large-Mode-Area Leakage Channel Fibers, OSA/IEEEJ. Lightwave Technology, 29, 2011
  • Raja R. V., Porsezian K. , Varshney S. K., Sivabalan S, Modeling photonic crystal fiber for efficient soliton pulse propagation at 850 nm, Optics Communications, 284, 5000-5006, 2010
  • Varshney S. K., Saitoh K. , Koshiba M. , Pal B. P., Sinha R. K., Design of S-band Erbium-doped, concentric dual-core photonic crystal fiber amplifiers with ASE and SRS suppression, J. Lightwave Technology, 27, 1725-1733, 2009
  • Varshney S. K., Saitoh K. , Iizawa K. , Tsuchida Y. , Koshiba M. , Sinha R. K., Raman amplification characteristics of As2Se3 photonic crystal fibers, Optics Letters, 33, 2431-2433, 2008
  • Saitoh K., Florous N. J., Varshney S. K., Koshiba M., Tunable photonic crystal fiber couplers with a thermo-responsive liquid crystal resonator, J. Lightwave Technology, 26, 663-669, 2008
  • Saitoh K., Florous N. , Murao T. , Varshney S. K., Koshiba M., Photonic bandgap fiber filter design based on non-proximity resonant coupling mechanism, IEEE Photonics Technology Letters, 19, 1547-1549, 2007
  • Varshney S. K., Saitoh K. , Florous N. J., Koshiba M., Raman amplification properties of photonic crystal fibers, Int. J. of Microwave and Optical Technol, 1, 173-180, 2006
  • Florous N. J., Varshney S. K., Saitoh K. , Koshiba M, Thermo-optical sensitivity analysis of highly birefringentpolarimetric sensing photonic crystal fibers with elliptically elongated veins, IEEE Photonics Technology Letters, 18, 1663-1665, 2006
  • S.K. Varshney, T. Fujisawa, K. Saitoh, and M. Koshiba, Novel design of inherently gain-flattened discrete highly nonlinear photonic crystal fiber Raman amplifier and dispersion compensation using a single pump in C-band, Optics Express, 2005
  • Varshney S. K., Sinha R. K., Spectral response of bend loss in photonic crystal fibers, J. Laser Physics, 14, 756-759, 2004
  • Sinha R. K., Varshney S. K, Dispersion properties of photonic crystal fibers, Microwave & Optical Technology Letters, 37, 129-132, 2003
  • Varshney S. K., Sinha R. K., Singh M. P, Propagation characteristics of photonic crystal fibers, J. Optical Communications, 24, 192-198, 2003

Projects

  • Early Detection of Oral Cancer using Digital Infrared, Client: Science and Engineering Research Board (SERB), Co-P.I.: Shailendra Kumar Varshney, Completed
  • Development of Wearable On-Chip Spectrometer for Monitoring Respiratory Motion, Client: Department of Science and Technology(DST), Co-P.I.: Shailendra Kumar Varshney, Completed
  • Nano-electronics Network for Research and Applications (NNetRA)- IIT Kharagpur (DST Part), Client: Department of Science and Technology(DST), Co-P.I.: Shailendra Kumar Varshney, Ongoing
  • Nano-electronics Network for Research and Application (NNetRA)- IIT Kharagpur (MEITY Part), Client: Ministry of Electronics and Information Technology, Co-P.I.: Shailendra Kumar Varshney, Ongoing
  • Nanotelectronics Network for Research and Application (NNetRA) - IIT Kharagpur, Client: Department of Science and Technology(DST), Co-P.I.: Shailendra Kumar Varshney, Ongoing
  • Nano-Machining and Modification of Optical Fiber Tip and Body Integrated Devices: Linear and Nonlinear, Client: Department of Science and Technology(DST), P.I.: Shailendra Kumar Varshney, Co-P.I.: Basudev Lahiri, Ongoing
  • Establishment of Quantum Communication Link for Space Application, Client: SPACE APPLICATIONS CENTRE, Indian Space Research Organization, P.I.: Shailendra Kumar Varshney, Co-P.I.: Suvra Sekhar Das, Ongoing
  • On-chip Nanophotonic Sources: Stabilized Frequency Comb and Plasmonic Microcavit Sources, Client: Department of Science and Technology(DST), P.I.: Shailendra Kumar Varshney, Ongoing
  • On-Chip Nanophotonic Sources: Stabilized Frequency Comb and Plasmonic Microcavit Sources, Client: Ministry of Electronics and Information Technology, P.I.: Shailendra Kumar Varshney, Ongoing
  • Dynamics of Nonlinear Optical Microactivities for On-Chip Quantum Photonic Applications, Client: Department of Science and Technology(DST), P.I.: Shailendra Kumar Varshney, Completed

Awards

  • GS Sanyal Award for Faculty Excellence - Year: 2020
  • Faculty Excellence Award - Year: 2019
  • Alexander von Humboldt (AvH) - Year: 2009
  • Gold Medal in M.Sc (Physics), Aligarh Muslim University (AMU), India. - Year: 1999
  • Sterlite Innovation Award for best paper in Photonics - Year: 2010
  • Excellent Paper Presentation Award by Optical Society of India in International Conference on Optics and Optoelectronics (ICOL 2014), XXXVIII Symposium of Optical Society of India, held at IRDE, Dehradun - Year: 2014

Research Group

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Anamika Barman
Ph. D.
Research Scholars
Thermoelectrics & Topological materials
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Anita Jena
Ph. D.
Research Scholars
Micro Machines
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Anjali Yadav
Ph. D.
Research Scholars
Bio Nano Photonics
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Bijaya Bikram Samal
Ph. D.
Research Scholars
4D printing and micro manufacturing
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Maitrayee Saha
Ph. D.
Research Scholars
Photonics
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Priyanka Shyamsunder Choubey
Ph. D.
Research Scholars
Nanophotonics
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Reajmina Parvin
Ph. D.
Research Scholars
Optics
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Saawan Kumar Bag
Ph. D.
Research Scholars
Photonics
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Saroj Kumar Mahapatra
Ph. D.
Research Scholars
Optical wireless communication
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Sauradeep Kar
Ph. D.
Research Scholars
Nonlinear photonics
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Shubhanshi Sharma
Ph. D.
Research Scholars
Metamaterials and Optical Phased Array Antenna