H. C. Srinivasaiah and Bhat, N. ,
“Monte Carlo Analysis of the Implant Dose Sensitivity in 0.1 nm NMOSFET”,
Solid-State Electronics, vol. 47/8, pp. 1379–1383, 2003.
H. C. Srinivasaiah and Bhat, N. ,
“Mixed Mode Simulation Approach to Characterize the Circuit Delay Sensitivity to Implant Dose Variations”,
IEEE Transactions on Computer Aided Design of Integrated Circuits and Systems, vol. 22, pp. 742–747, 2003.
H. C. Srinivasaiah and Bhat, N. ,
“Characterization of Sub-100nm CMOS Process Using Screening Experiment Technique”,
Solid State Electronics, vol. 49, pp. 431-436, 2005.
T. Sreenivasulu, Kolli, V. R. , Tarimala, B. , Hegde, G. , Sangineni, M. , and Talabattula, S. ,
“Super defect inside photonic crystal ring resonator to enhance Q factor”,
Optical Engineering, vol. 55, p. 035103, 2016.
C. Sow, Samal, D. , Kumar, P. S. A. , Bera, A. K. , and Yusuf, S. M. ,
“Structural-modulation driven low-temperature glassy behaviour in SrRuO3”,
Phys. Rev. B, vol. 85, p. 224426, 2012.
J. Haobijam Singh, Nair, G. , Ghosh, A. , and Ghosh, A. ,
“Wafer scale fabrication of porous three-dimensional plasmonic metamaterials for the visible region: chiral and beyond”,
Nanoscale, vol. 5, pp. 7224–7228, 2013.
P. Singh and Ananthasuresh, G. K. ,
“A Compact and Compliant External Pipe-Crawling Robot”,
IEEE Transactions on Robotics, vol. 29, pp. 251-260, 2013.
M. P. Singh, Shalini, K. , Shivashankar, S. A. , Deepak, G. C. , Bhat, N. , and Shripathi, T. ,
“Microstructure, crystallinity, and properties of low-pressure MOCVD-grown europium oxide films”,
Materials Chemistry and Physics, vol. 110, pp. 337-343, 2008.
H. Johnson Singh and Ghosh, A. ,
“Porous three dimensional arrays of Plasmonic Nanoparticles”,
Journal of Physical Chemistry C, vol. 116, pp. 19467–19471, 2012.
H. Johnson Singh and Ghosh, A. ,
“Chiro-optical response in helically arranged achiral dielectric nanoparticles”,
Journal of Materials Chemistry C, vol. 6, pp. 2430–2434, 2018.
J. Singh, Jadhav, S. , Avasthi, S. , and Sen, P. ,
“Designing Photocatalytic Nanostructured Antibacterial Surfaces: Why Is Black Silica Better than Black Silicon?”,
ACS Applied Materials & Interfaces, vol. 12, pp. 20202–20213, 2020.