A. Deyasi and S. Bhattacharyya, “Analysis of DC Properties of SDR IMPATT Structure by Double Iterative Method Designed at Different Microwave Frequency Bands”, 1st InternationalConference on Communication and Industrial Application, pp. 1-4, Dec 2011 [IEEE Xplore, 10.1109/ICCIndA.2011.6146664]
A. Deyasi and S. Bhattacharyya, “Theoretical Estimation of DC Properties ofSi-based SDR Structure Designed for IMPATT at X-Band”, International Conference on Laser, Material Science & Communication, pp. 225-227, Dec 2011 [978-93-80813-14-1]
R. Karmakar, S. Mukherjee and A. Deyasi, “Numerical Investigation of Transmission Coefficient of Double Quantum Well Triple Barrier Structure with Band Nonparabolicity”, International Conference on Laser, Material Science & Communication, pp. 296-298, Dec 2011 [978-93-80813-14-1]
S. Mukherjee, R. Karmakar and A. Deyasi, “Nonparabolicity Effect on Transmission Coefficient of Double Quantum Well Triple Barrier Structure under Electric Field”, International Conference on Theoretical and Applied Physics, p. 70, Dec 2011
A. Deyasi, S. Bhattacharyya and N. R. Das, “Calculating Energy Eigenvalues in a Core-Shell Cylindrical Quantum Wire”, National Conference on Frontiers in Communication and Instrumentation Technology, p. 87, Nov 2011
A. Deyasi and S. Bhattacharyya, “Effect of Electron-Electron Scattering on Optical Properties of GaAs Bulk Semiconductor Laser”, National Conference on Electronics, Communication and Signal Processing, pp. 59-62, Sept 2011
A. Deyasi and S. Bhattacharyya, “Computation of Eigenenergy of Multiple QuantumWell Structure via Finite Difference Method in Presence of Electric Field”, National Conference on Recent Advances inMaterials & Technology, p. 41, Jun 2011
R. Karmakar, S. Mukherjee and A. Deyasi, “Numerical Analysis of Transmission Coefficient of Double Quantum Well Triple Barrier Structure for Variable Effective Mass using Transfer Matrix Technique”, IEEE Student Paper Contest, pp. 66-70, Apr 2011
A. Deyasi and S. Bhattacharyya, “Experimental Investigation of Impurity Distribution through Diffusion Route for p+nn+ SDR Structure Designed for IMPATT at Ka-Band”, National Conference onIndustrial Engineering, p. 34, Feb 2011