Latest Publications
- V. K. GURUGUBELLI, and S. Karmalkar, “An Integral Equation Approach to Model the Drastic Change in Depletion Width From Bulk to Nanoscale Junctions,” IEEE Trans. Electron Devices, 65(4), pp. 1493-1501, 2018.
- V. K. GURUGUBELLI and S. Karmalkar, “Effective Medium Theory Based Analytical Models for the Potential and Field Distributions in Arrays of Nanoscale Junctions,” J. Appl. Phys., 122, p. 024502, 2017.
- Shubham Jain, V. K. GURUGUBELLI, and S. Karmalkar, “An Analytical Model of the Frequency Dependent 3-D Current Spreading in Forward Biased Shallow Rectangular P-N Junctions,” IEEE Trans. Electron Devices, 64(2), pp. 507-514, 2017.
- V. K. GURUGUBELLI and S. Karmalkar, “Effective Medium Theory of the Space-Charge Region Electrostatics of Arrays of Nanoscale Junctions,” J. Appl. Phys., 119(2), p. 024507, 2016.
- V. K. GURUGUBELLI and S. Karmalkar, “Analytical Theory of the Space-Charge Region of Lateral p-n Junctions in Nanofilms,” J. Appl. Phys., 118(3), p. 034503, 2015.
- V. K. GURUGUBELLI, R. C. Thomas, and S. Karmalkar, “An Analytical Model of the DC and Frequency-Dependent 2-D and 3-D Current Spreading in Forward-Biased Shallow p-n Junctions,” IEEE Trans. Electron Devices, 62(2), pp. 471-477, 2015.
- V. K. GURUGUBELLI and S. Karmalkar, “A unified analytical model of the junction electrostatics in nanowire and nanotube arrays,” Appl. Phys. Lett., 104(20), p. 203502, 2014.
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