T.Sharma, Lalit Singh, and M. Kumar, “Nanophotonic Ultra-short Coupler Based on Hybrid Plasmonic Waveguide with Lateral Subwavelength Grating”, IEEE Transactions on Nanotechnology 15, 6 (2016) 931-935.
B. Painam, R. S. Kaler and M. Kumar, “Photonic Crystal Waveguide Biochemical Sensor for the Approximation of Chemical Components Concentrations”, Plasmonics Journal 2016, DOI 10.1007/s11468-016-0341-z.
Saronika, M. Kumar, S. Sharma and M.K. Pal, “Nanocavity-coupled Photonic Crystal Waveguide as Highly Sensitive Platform for Cancer Detection”, IEEE Sensors Journal 16, 3705-3710 (2016).
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.
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.
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.
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).
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).
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).
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).
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).