[1] | B. K. Sarkar, A. S. Verma and P. S. Deviprasad, "Temperature induced band gap shrinkage in Cu2GeSe3: Role of Electron-phonon interaction" Physica B, 406, 2847, (2011). |
[2] | A. S. Verma, "High frequency and static dielectric constants of zinc blende structured solids", Solid State Communications, Accepted, (2011). |
[3] | A. S. Verma, S. Sharma, R. Bhandari, B. K. Sarkar and V. K. Jindal, "Elastic properties of chalcopyrite structured solids", Materials Chemistry and Physics, Accepted, (2011). |
[4] | A. S. Verma, N. Pal, R. Bhandari and V. K. Jindal, "Dielectric constants of zinc blende semiconductors", Physica Scripta, Accepted, (2011). |
[5] | Priyanka Agrawal, S. K. Rathi and A. S. Verma, "Stopping power of carbon, aluminium and silicon for electrons and positrons", Elixir Chemical Physics, 37, 3856, (2011). |
[6] | A. Saxena, S. K. Rathi and A. S. Verma, "Continuous slowing down approximation ranges of electrons for biomedical materials", Elixir Biophysics, 37, 3860, (2011). |
[7] | A. S. Verma, B. K. Sarkar and V. K. Jindal, "Inherent properties of binary tetrahedral semiconductors", Physica B, 405, 1737, (2010). |
[8] | A. S. Verma, Sheetal Sharma and V. K. Jindal, "Electronic polarizability of compound semiconductors", J. Computational Methods in Science and Engineering, 10, 615-620, (2010). |
[9] | B. K. Sarkar, A. S. Verma, R. C. Gupta and K. Singh, "Thermal and optical properties of Zn1-xMnxTe diluted magnetic semiconductor studied by photoacoustic spectroscopic method", International Journal of Thermophysics, 31, 620, (2010). |
[10] | A. Saxena, H. Singh, P. Agrawal, S. K. Rathi, and A. S. Verma, "Stopping power of electrons and positrons for C, Al, Cu, Ag, Au, Pb, Fe, U, Ge, Si and Mo" Applied Physics Research, 2, 176, (2010). |
[11] | A. S. Verma, "Correlation between ionic charge and the optical properties of zinc blende and complex crystal structured solids", Physica Status Solidi (b), 246, 192, (2009). |
[12] | A. S. Verma, "An empirical relationship between ionic charge and the electronic polarizability of binary and ternary tetrahedral semiconductors", Physica Scripta, 79, 045703, (2009). |
[13] | A. S. Verma, "Thermal properties of chalcopyrite semiconductors", Philosophical Magazine, 89, 183, (2009). |
[14] | A. S. Verma, "An empirical model for bulk modulus and cohesive energy of rock-salt, zinc blende and chalcopyrite structured solids", Physica Status Solidi (b), 246, 345, (2009). |
[15] | A. S. Verma, "Bond-stretching force constant of ternary tetrahedral semiconductors", Solid State Communication, 149, 1236, (2009). |
[16] | A. S. Verma, "Electronic and optical properties of rare earth monochalcogenides and pnictides", Afr. Physical Review, 3, 11, (2009). |
[17] | A. S. Verma and V. K. Jindal, "Lattice constant of cubic perovskite solids", J. Alloys and Compounds, 485, 514, (2009). |
[18] | A. S. Verma, R. K. Singh and S. K. Rathi, "Thermal property of binary tetrahedral semiconductors", Physica B, 404, 4051, (2009). |
[19] | A. S. Verma and S. R. Bhardwaj, "Inherent properties of complex structured solids", Physica Scripta, 79, 015302, (2009). |
[20] | A. Kumar and A. S. Verma, "Lattice constant of orthorhombic perovskite solids", J. Alloys and Compounds, 480, 650, (2009). |
[21] | B. K. Sarkar, A. S. Verma, R. C. Gupta, "Tempetature dependence of elastic constants for ionic solids", Physica B, 404, 4106, (2009). |
[22] | R. K. Singh, A. S. Verma, and S. K. Rathi, "Ground state properties of Rocksalt, CsCl, Diamond and Zinc Blende structured solids" Open Condensed Matter Physics Journal, 2, 25, (2009). |
[23] | A. S. Verma, A. Kumar and S. R. Bhardwaj, "Correlation between ionic charge and the lattice constant of cubic perovskite solids", Physica Status Solidi (b), 245, 1520, (2008). |
[24] | A. Kumar, A. S. Verma and S. R. Bhardwaj, "Prediction of formability in perovskite-type oxides", Open Applied Physics Journal, 1, 11-19, (2008). |
[25] | A. S. Verma and S. R. Bhardwaj, "Correlation between ionic charge and the mechanical properties of complex structured solids, J. Phys: Condensed Matter, 19, 026213, (2007). |
[26] | A. S. Verma and S. R. Bhardwaj, "Correlation between ionic charge and ground state properties in rock-salt and zinc blende structured solids", J. Phys: Condensed Matter, 18, 8603, (2006) |
[27] | A. S. Verma and S. R. Bhardwaj, "Electronic and optical properties of zinc blende and complex structured solids", Physica Status Solidi (b), 243, 4025, (2006) |
[28] | A. S. Verma, S. K. Rathi, D. Sharma and S. R. Bhardwaj, "Thermodynamics properties of binary rare earth compounds", Acta Ciencia Indica, vol. XXXII, 065, (2006). |
[29] | A. S. Verma, S. K. Rathi, D. Sharma and S. R. Bhardwaj, "Structural properties of Europium monochalcogenides", Acta Ciencia Indica, vol. XXXII, 137, (2006). |
[30] | A. S. Verma, S. K. Rathi, D. Sharma and S. R. Bhardwaj, "Bulk Modulus of NaCl structured Tm monochalcogenides", Acta Ciencia Indica, vol. XXXII, 271, (2007). |
[31] | D. Sharma, A. S. Verma, G. S. Sharma and S. R. Bhardwaj, "Thermal properties of transition metal dichalcogenides", Acta Ciencia Indica, vol. XXXI, 321, (2005). |
[32] | D. Sharma, A. S. Verma, G. S. Sharma and S. R. Bhardwaj, "Structural properties of Zirconium (Zr) trichalcogenides", Acta Ciencia Indica, vol. XXXII, 193, (2006). |
[33] | D. Sharma, A. S. Verma, G. S. Sharma and S. R. Bhardwaj, "Structural properties of Antimony trichalcogenides", Acta Ciencia Indica, vol. XXXII, 323, (2006). |
[34] | S. Kumar, A. S. Verma, D. Sharma and S. R. Bhardwaj "Mechanical property of rare earth monochalcogenides", Acta Ciencia Indica, vol. XXXV, 643, (2009). |
[35] | S. Kumar, D. Sharma, A. S. Verma and S. R. Bhardwaj, "Linear relationship between effective charge and crystal ionicity of Molybdenum (Mo) dichalcogenides", Acta Ciencia Indica, vol. XXXV, 639, (2009). |
[36] | R. K. S. Tomar, B. P. Singh, A. S. Verma, S. K. Choudhary and S. R. Bhardwaj, "Dielectric properties of rare earth compounds", Acta Ciencia Indica, vol. XXXV, 587, (2009). |
[37] | R. K. S. Tomar, B. P. Singh and A. S. Verma, "Electronic properties of floride type crystals", Acta Ciencia Indica, vol. XXXV, 575, (2009). |