ELECTRICAL ENGINEERING INDIAN INSTITUTE OF TECHNOLOGY INDORE

Selected Journals

  1. S. Kumar, A. Kumar, R. D. Mishra, P. Babu, S. K. Pandey, S. Devi, G. Brunetti, C. Ciminelli, and M. Kumar "Multilevel Nanophotonic Resistive Switching in Ag-ITO-SiO2 on Silicon with Enhanced Optical Storage Density", Journal of Lightwave Technology , Oct. 2024, DOI: 10.1109/JLT.2024.3474775.
  2. A. Kumar, S. Kumar, R. D. Mishra, S. K. Pandey, P. Babu, and M. Kumar "Distributed semiconductor heterojunctions of ZnO-Cu2O for ultraviolet photodetection", Optical Materials, vol. 157, September 2024, DOI: 0.1016/j.optmat.2024.116092.
  3. N. Mohanta, S. Devi, P. Babu, V. Kaushik, S. K. Pandey, R. D. Mishra, and M. Kumar "Electrically tunable vertically coupled ring resonator based on Si-ITO heterojunction", Optical and Quantum Electronics, May 2024, DOI: 10.1007/s11082-024-07144-6.
  4. S. Biswas, P. Babu, S. Kumar, S. Devi, S. K. Pandey, and M. Kumar, "Reconfigurable Optical Add/Drop Multiplexing-Demultiplexing in Arrayed Waveguide Grating with Fold Back Technique", Optics, May 2024, DOI: 10.1016/j.ijleo.2024.171879.
  5. R. D. Mishra, S. K. Pandey, P. Babu, S. Kumar, A. Kumar, N. Mohanta, and M. Kumar, "Nanophotonic Resistive Switch based on Tapered Copper-silicon Structure with Low Power and High Extinction Ratio", Optics and Laser Technology, March 2024, DOI: 10.1016/j.optlastec.2024.110833.
  1. S. K. Pandey, R. D. Mishra, P. Babu, N. Mohanta, S. Kumar, and M. Kumar, "Plasmonic Absorber based on Engineered Cu-ITO Structure on Silicon with Low Voltage Tuning and High Extinction Ratio", Journal of Lightwave Technology, January 2024, DOI: 10.1109/JLT.2024.3362363.
  2. V. Kaushik, S. Rajput , P. Babu, S. K. Pandey, R. D. Mishra, H. Ren, S. Maier, V. J. Sorger, H. D. and M. Kumar, "Electronically Controlled Semiconductor Nanoparticle Array for Tunable Plasmonic Metasurfaces", Journal of Lightwave Technology, January 2024, (Just Accepted)
  3. P. Babu, S. Sachan, V. Kaushik, S. Rajput, S. K. Pandey, R. D. Mishra, and M. Kumar, "Electrically Tunable Birefringence in Nanophotonic Waveguide with 2D Electron Gas in Semiconductor Heterojunction", Optics, January 2024, DOI:10.1016/j.ijleo.2024.171603.
  4. S. K. Pandey, S. Rajput, V. Kaushik, P. Babu, R. D. Mishra, and M. Kumar, "Optically triggered AlGaN/GaN semiconductor power transistor with bi-layer anti-reflecting structure", Optical Engineering, December 2023, DOI:10.1117/1.OE.62.12.127102.
  5. S. Kumar, R.D. Mishra, A. Kumar, P. Babu, S. K. Pandey, and M. Kumar, "Double-Slot Nanophotonic Platform for Optically Accessible Resistive Switching with High Extinction Ratio and High Endurance", ACS Photonics, October 2023, DOI:10.1021/acsphotonics.3c01289.
  6. S. Rajput, V. Kaushik, P. Babu, S. K. Pandey, and M. Kumar, "All optical modulation in vertically coupled indium tin oxide ring resonator employing epsilon near zero state", Scientific Reports, October 2023, DOI:10.1038/s41598-023-44438-3.
  7. S. Kiran, R. D. Mishra, S. Kumar, A. Jogi, L. Singh, and M. Kumar, "Nano-scale Optical Guidance and Control in FinFET Like Structure", Optical and Quantum Electronics, June 2023, DOI:10.1007/s11082-023-05057-4.
  8. S. Rajput, V. Kaushik, L. Singh, Sulabh, S. K. Pandey, P. Babu, and M. Kumar, "Efficient Optical Modulation in Ring Structure based on Silicon-ITO Heterojunction with Low-voltage and High Extinction-ratio", Optics Communication, May 2023, DOI:10.1016/j.optcom.2023.129562.
  9. R. D. Mishra, L. Singh, S. Rajput, V. Kaushik, S. K. Pandey, P. Babu, and M. Kumar, "Comb-Like Hybrid Plasmonic Ring Resonator for Large and Voltage Tunable Group Delay", IEEE Transactions on Nanotechnology, March 2023, DOI:10.1109/TNANO.2023.3259006.
  1. S. Kumar, A. Kumar, P. Babu, R. D. Mishra, S. K. Pandey, M. K. Pal, and M. Kumar, "Nanophotonic Ring Resonator based on Slotted Hybrid Plasmonic Waveguide for Biochemical Sensing", IEEE Sensors Journal , January 2023, DOI:10.1109/JSEN.2023.3239868.
  2. A. Jogi, L. Singh, V. Kaushik, R. D. Mishra, S. Kiran, and M. Kumar, "Electrically Tunable Nanophotonic Switch Based on Graphene-Silicon Hybrid Ring Resonator", Appl. Phys. B , November 2022, DOI:10.1007/s00340-022-07943-3.
  3. S. Kumar, S. Rajput, V. Kaushik, P. Babu, R. D. Mishra, R.Ranjan, and M. Kumar, "Numerical Analysis of Laterally and Vertically Coupled Hybrid Plasmonic Modes in Silicon Tip", Plasmonics , May 2022, DOI:10.1007/s11468-022-01657-0.
  4. S. K. Pandey, S. Rajput, V. Kaushik, P. Babu, R. D. Mishra, and M. Kumar, "Electrically Tunable Plasmonic Absorber Based on Cu-ITO Subwavelength Grating on SOI at Telecom Wavelength", Plasmonics , May 2022, DOI:10.1007/s11468-022-01658-z.
  1. V. Kaushik, S. Rajput, S. Srivastav, L. Singh, P. Babu, E. Heidari, M. Ahmed, Y. Al-Hadeethi, Hamed Dalir, Volker J. Sorger and M. Kumar, "On-chip nanophotonic broadband wavelength detector with 2D-Electron gas: Nanophotonic platform for wavelength detection in visible spectral region",Nanophotonics, November 2021, DOI: 10.1515/nanoph-2021-0365.
  2. S. Rajput, V. Kaushik, L. Singh, S. Srivastava, S. K. Pandey, R.D. Mishra, and M. Kumar, "Efficient Photodetector based on Sub-bandgap Transition in Silicon-ITO Distributed-Heterojunctions", Journal of Lightwave Technology, 2021, DOI: 10.1109/JLT.2021.3106451.
  3. S. Srivastava, L. Singh, V. Kaushik, S. Rajput, S. Jain, M. K. Pal, and M. Kumar, "Electrically controlled nanophotonic slot structure based on photocatalytic nanocomposite for optical detection of foodborne pathogens", Journal of Lightwave Technology, 2021, DOI: 10.1109/JLT.2021.3104409.
  4. S. Rajput, V. Kaushik, L. Singh, S. Srivastava, and M. Kumar, "Optical modulator based on a silicon-ITO grating embedded rib structure with a tunable group delay", Optics Letters , Vol. 46, No. 14, pp. 3468-3471, 2021.
  5. L. Singh, S. Srivastava, V. Kaushik, S. Rajput, R. D. Mishra, and M. Kumar, "Light Assisted Electro-Metallization in Resistive Switch with Optical Accessibility", Journal of Lightwave Technology, 2021, DOI: 10.1109/JLT.2021.3091970.
  6. R. D. Mishra, L. Singh, S. Rajput, V. Kaushik, S. Srivastava, and M. Kumar, "Engineered Nanophotonic Waveguide with Ultra-LowDispersion", Applied Optics, Vol. 60, No. 16, pp. 4732-4737, 2021.
  7. S. Rajput, V. Kaushik, P. Babu, P. Tiwari, A. K.Srivastava, and M. Kumar, "Optical Modulation via Coupling of Distributed Semiconductor Heterojunctions in a Si-ITO-Based Subwavelength Grating", Physical Review Applied , Vol. 15, No. 5, pp. 54029, May 2021.
  8. L. Singh, S. Srivastava, S. Rajput, V. Kaushik, R. D. Mishra, and M. Kumar,"Optical Switch with Ultra High Extinction Ratio Using Electrically Controlled Metal Diffusion", Optics Letters, Vol. 46, No. 11, pp. 2626-2629, 2021.
  9. S. Sulabh, V. Kaushik, L. Singh, S. Rajput, and M. Kumar, "Nanophotonic Waveguide based on Engineered Horizontal-vertical Slots for Polarization Independent Bio-chemical Sensing", Journal of Optical Society of America B, Vol. 38, No. 3, pp. 749-757, 2021.
  1. S. Sulabh, L. Singh, S. Jain and M. Kumar, "Nanophotonic Device based on Fano Resonance in Engineered Slot Waveguide for Optical Detection of Viral Infections", IEEE Sensors Journal Vol. 21, No.3, pp. 2805-2812, 2021.
  2. V. Kaushik, S. Rajput, S. Srivastava, S. Jain, L. Singh and M. Kumar,"Efficient Sub-bandgap Photodetection via Two-Dimensional Electron Gas in ZnO Based Heterojunction", Journal of Lightwave Technology, Vol. 38, No. 21, pp. 6031-6037, Nov 2020.
  3. S. Rajput, V. Kaushik, S. Jain and M. Kumar, "Slow Light Assisted Electrical Tuning in Hollow Optical Waveguide via Carrier Depletion in Silicon and Indium Tin Oxide Sub-wavelength Gratings", Journal of Optical Society of America B 37, 2360, 2020.
  4. S. Jain, S. Rajput, Sulabh, V, Kaushik and M. Kumar, "Efficient Optical Modulation with High Data-rate in Silicon Based Laterally Split Vertical p-n Junction", IEEE Journal of Quantum Electronics , vol.56(2). pp.1-7, 2020.
  5. S. Jain, Sulabh, S. Rajput, L. Singh, P. Tiwari, A. Shrivastava, and M. Kumar, "Thermally stable optical filtering using silicon-based comb-like asymmetric grating for sensing applications", IEEE Sensors Journal , vol.20(7) pp.3529-3535, 2020.
  6. V. Kaushik, S. Rajput and M. Kumar, "Broadband Optical Modulation in Zinc Oxide based Heterojunction via Optical Lifting", Optics Letters , Vol. 45 (2) pp. 363-366 (2020).
  7. S. Rajput, V. Kaushik, S. Jain ,P. Tiwari , A. K. Srivastava and M. Kumar, "Optical Modulation in Hybrid Waveguide based on Si-ITO Heterojunction", Journal of Lightwave Technology , vol 38 (6) pp. 1365-1371 (2020).
  1. L. Singh, S. Jain and M. Kumar, "Electrically Writable Silicon Nanophotonic Resistive Memory with Inherent Stochasticity", Optics Letters , Vol. 44 (16) pp. 4020-4023, 2019.
  2. L. Singh, S. Tidke and M. Kumar, "Guiding and controlling light at nanoscale in field effect transistor", Applied Physics B Vol. 125 (6) pp.4-7 , June 2019.
  3. S. Sulabh, L. Singh, S. Jain and M. Kumar, "Optical Slot Waveguide with Grating-loaded Cladding of Silicon and Titanium Dioxide for Label-free Bio-sensing", IEEE Sensors Journal , Vol. 19(15) pp. 6126-6133,2019.
  4. S. K. Tripathi, A. Kumar and M. Kumar, "Graphene based tunable and wideband terahertz antenna for wireless network communication", Wireless Networks 25 (2019) 4371 - 4381.
  5. S. Rajput, V. Kaushik, S. Jain and M. Kumar, "Slow Light Enhanced Phase Shifter Based on Low-Loss Silicon-ITO Hollow Waveguide", IEEE Photonics Journal , Vol.11(1) pp.1-8, February 2019.
  6. S. Jain, S. Rajput, V. Kaushik and M. Kumar, "High Speed Optical Modulator based on Silicon Slotted rib Waveguide", Optics Communications , vol.434, pp.49-53, 2019.
  7. L. Singh, T. Sharma and M. Kumar, "Controlled Hybridization of Plasmonic and Optical Modes for Low-Loss Nano-Scale Optical Confinement With Ultralow Dispersion", IEEE Journal of Quantum Electronics , vol. 54, no. 2, pp. 1-5, April 2018.
  8. B. Painam, R. S. Kaler and M. Kumar,"On-Chip Oval Shaped Nanocavity Photonic Crystal Waveguide Biosensor for Detection of Foodborne Pathogens", Plasmonics 13, Issue 2 (2018), pp 445-449.
  1. H. Kang, V. Mehta, M. Kumar, "Slow Light in Narrow Core Hollow Optical Waveguide with Low loss and Large Bandwidth" Applied Optics 55 (2016) 10119-10123.
  2. T.Sharma, L. Singh, and M. Kumar, "Nanophotonic Ultra-short Coupler Based on Hybrid Plasmonic Waveguide with Lateral Subwavelength Grating", IEEE Transactions on Nanotechnology 15, 6 pp. 931-935,2016.
  3. B. Painam, R. S. Kaler and M. Kumar, "Photonic Crystal Waveguide Biochemical Sensor for the Approximation of Chemical Components Concentrations", Plasmonics 12, Issue 3 (2017), pp 899-904.
  4. S. Jindal, M. Kumar, S. Sharma, M. K. Pal, "Nanocavity-coupled Photonic Crystal Waveguide as Highly Sensitive Platform for Cancer Detection", IEEE Sensors Journal 16 , No. 10 (2016) 3705-3710.
  5. H. Kang and M. Kumar, "Two-way Reflector Based on Two-dimensional Sub-wavelength High-index Contrast Grating on SOI", Optics Communications 366 (2016) 266-270.
  6. V. Kumar, H. Kaur, and M. Kumar, "Narrow-core hollow optical waveguide with nanostructured SOI as ultra-low loss platform for efficient photodetection", Photonic Network Communications 34 (2017) 241-247.
  7. V. Kumar and M. Kumar, "Photonic crystal assisted multiband compact terahertz antenna on engineered silicon-on-insulator", IEEE-IET Optoelectronics 10 (2016) 7 - 10.
  1. J. K. Thind, M. Kumar and B.K. Kaushik, "Electrical Tuning of Optical Delay in Graphene based Photonic Crystal Waveguide", IEEE Journal of Quantum Electronics 51, No. 10 (2015) 6400105
  2. T.Sharma and M. Kumar, "Hybridization of Plasmonic and Photonic Modes for Subwavelength Optical Confinement with Longer Propagation and Variable Nonlinearity", Optics Communications 343 (2015) 85-90.
  3. S. Aneja and M. Kumar, "Design of a Three-Hole Defect Photonic Crystal Nanocavity with High-Q and Enhanced Purcell Factor", Optical Engineering, 54 (1), 017106 (2015). doi: 10.1117/1.OE.54.1.017106.
  4. A. Sharma and M. Kumar, "Flat Band Slow Light in Silicon Photonic Crystal Waveguide with Large Delay Bandwidth Product and Low Group Velocity Dispersion", IEEE-IET Optoelectronics 9 (2015) 24 - 28.
  5. S. Jindal and M. Kumar, "Broadband and Polarization Insensitive Design of Terahertz Absorber with High-Index Contrast Grating on SOI Chip", Optical and Quantum Electronics 47 (2015) 1693 - 1702.
  6. M. Kumar, "Hollow Waveguide Bragg Reflector: A Tunable Platform for Integrated Photonics", Journal of Optics and Laser Technology 65 , 5 - 13 (2015).
  7. T. Sharma and M. Kumar, "Hollow hybrid plasmonic waveguide for nanoscale optical confinement with long-range propagation", Applied Optics 53 , 1954-1957 (2014).
  8. M. Kumar, "Narrow bandwidth and polarization independent design of hollow waveguide in-plane mirror with ultra-wide tuning range", Applied Optics 52 , 1847-1851 (2013).
  9. M. Kumar, C. Chase, V. Karagodsky, T. Sakaguchi, F. Koyama, and C. J. Chang-Hasnain, "Low birefringence and 2-D optical confinement of Hollow waveguide with distributed Bragg reflector and high index contrast grating", IEEE Photonics Journal 1 , No.2, 135 (2009).
  10. M. Kumar, T. Sakaguchi, and F. Koyama, "Wide tunability and ultralarge birefringence with 3D hollow waveguide Bragg reflector", Optics Letters 34 , No. 8, 1252 (2009).
  11. M. Kumar, T. Sakaguchi, and F. Koyama, "Giant birefringence and tunable differential group delay in Bragg reflector based on tapered three-dimensional hollow waveguide", Applied Physics Letters 94 , Issue 6, 061112 (2009).
  12. M. Kumar, T. Sakaguchi, and F. Koyama, "Polarization-insensitive and low-loss 3-D nanostep hollow waveguide for widely tunable photonic devices", IEEE Journal of Lightwave Technology 26 , No. 11, 1417 (2008).
  13. M. Kumar, T. Sakaguchi, and F. Koyama, "Tunable three-dimensional nanostep hollow optical waveguide with low polarization dependence", Applied Physics Express 1 , 052002 (2008).
  14. M. Kumar and F. Koyama, "Investigation and theoretical analysis of low-loss 3D hollow waveguides for widely tunable photonic devices", Japanese Journal of Applied Physics 47 , No. 5, 3471-3475 (2008).
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