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Prof. B.R.K. Gupta

Prof. B.R.K. Gupta

  • Emeritus Professor
    Institute of Applied Sciences & Humanities

  • Department

    Department of Physics

  • Contact Details:

    Email : brk.gupta@gla.ac.in

    Contact Number :07351817363

  • Experience

    42 Years Teaching & Research experience.

  • Qualifications

  • Ph.D

    Thesis Supervised

  • Awarded/ Completed19

    Working-

  • Postgraduate

    Thesis Supervised

  • Awarded/ Completed-

    Working-

  • 01 Gupta, B.R.K. and Verma, M.P. “A TSM study of phonon dispersion in a high superconducting transition temperature transition metal carbide”. Solid State Physics 17C, 166 (1974).
  • 02 Verma, M.P. and Gupta, B.R.K. “A three body force shell model studyof phonon dispersion in transition metal carbides TaC and HfC”. Physics Rev B 12, 1312, (1975).
  • 03 Gupta, B.R.K. and Verma, M.P. “A TSm study of phonon dispersion in ZrC”. J. Physics Chem. Solids 37, 815 (1976).
  • 04 Gupta, B.R.K. and Verma, M.P. “Application of three body force shell model to the lattice dynamics of MnO, NiO”. J. Physics Chem. Solids 38, 522 (1976).
  • 05 Sharma, S.P., Jain Shanker and Gupta, B.R.K. “Electronic Polarizabilities in transition metal oxides”. Solid State Comm. 21, 205 (1977).
  • 06 Gupta, B.R.K. and Srivastava, K.G. “Accelerated growth of root in seeds by Helium Neon Laser” J. Optics, 11, 96 (1982).
  • 07 Gupta, B.R.K. and Goyal, R.P. “Evaluation of Anderson-Gruneisen parameter in AgCl-AgBr mixed crystals”. Solid State Phys. 25C, 16 (1982).
  • 08 Gupta, B.R.K. “Effect of three body interactions on the dielectric properties of ammonium halides”. National J. Dielectric & Ferroelectric 25, 23 (1982).
  • 09 Gupta, B.R.K. “Analysis of cohesive energy in ammonium halide crystals”. J. Nat Acad. Sci. 10, 28 (1982).
  • 10 Gupta, B.R.K. and Kumar, V. “Analysis of effective compressibilities of PbS, PbSe, PbTe and SnTe”. Solid State Comm. 45, 745 (1983).
  • 11 Goyal, R.P. and Gupta, B.R.K. “Analysis of Thermophysical properties of KBr-KI mixed crystal system”. Solid State Physics and ucl. Physics 26CX (1983).
  • 12 Gupta, B.R.K., Kumar, V. and Malaviya, S.C. “Evaluation of third order elastic constants of silver halide crystals”. Indian J. Physics 57A, 333 (1983).
  • 13 Gupta, B.R.K. and Singh, S. “Effective compressibility of ionic semi-conducting compounds of II-VI group”. Czech. J. Physics 833, 455 (1983).
  • 14 Gupta, B.R.K. and Kumar, V. “Crystal binding in Alkali Hydrides” Czech. J. Physics 835, 011 (1983).
  • 15 Gupta, B.R.K. and Goyal, R.P. “A theoretical analysis of interionic potentials in rutile type crystals”. Physica Status Solidi 118, K7, (1983).
  • 16 Agrawal, N., Goyal, R.P., Gupta, B.R.K. and Singh, R.K. “Evaluation of cohesive energy in NaCl-NaBr mixed crystals”. Phys. Stat. Sol. (b), 115, K141 (1983).
  • 17 Gupta, B.R.K. and Goyal, R.P. “Study of anharmonic properties of mixed diatomic crystals”. ILNUOVO CIMENTO D3, 331 (9184).
  • 18 Gupta, B.R.K. and Goyal, R.P. “Photoelastic constants of rubium halide crystals”. Czech. J. Phys. B34, 40 (1984).
  • 19 Gupta, B.R.K. and Goyal, R.P. “Static and thermophysical properties of chalcogenides crystals with NaCl structure”. Solid State Comm. 9, 559 (1984).
  • 20 Gupta, B.R.K. “Dielectric behaviour of sodium halide crystals”. Solid State Physics and Nucl. Physics 27C, 252 (1984).
  • 21 Gupta, B.R.K. and Goyal, R.P. “Study of static and thermophysical properties of alkaline earth fluoride crystals”. Solid State Commun. 50, 247 (1984).
  • 22 Goyal, R.P. and Gupta, B.R.K. “Evaluation of ionic compressibilities and static polarisabilities of cations and anions of ammonium halides”. Phys. Stat. Sol. (b), 123, K109 (1984).
  • 23 Gupta, B.R.K., Sharma, O.P. andGoyal, R.P. “Study of anharmonic elastic properties of fluoride structure crystals”. Czech. J. Physics B34, 532 (1984).
  • 24 Gupta, B.R.K., Goyal, R.P. and Agrawal, A. “Evaluation of Third order elastic constants and pressure derivatives of second order elastic constants for NaCl-BaBr mixed crystals”. Nat. Acad. Sci. 54 (A), 403 (1984).
  • 25 Gupta, B.R.K. “Static and thermophysical properties of mixed crystals”. Phys. Stat. Sol. (b), 128, 107 (1985).
  • 26 Gupta, B.R.K. “Higher order elastic constants and pressure derivatives SOEC of sodium halide crystals”. Sol. Stat. Commun. 54, 817 (1985).
  • 27 Agrawal, N., Goyal, R.P., Rawat, S.K. and Gupta, B.R.K. “Temperature dependence of anharmonic elastic properties of NaCl-NaBr mixed crystals”. Solid Stat Physics, 28C, 128 (1985).
  • 28 Rawat, S.K. and Gupta, B.R.K. “Dielectric properties of mixed crystal using many body lattice theory”. Solid State Physics 28C, 206 (1985).
  • 29 Adhikari, R.S., Gupta, B.R.K. and Goyal, R.P. “Gruneisen-Anderson parameters for fluorite-structure crystals”. Solid State Physics 29C, 171 (1986).
  • 30 Pathak, P.C., Agrawal, Rashmi, Agrawal, D.P. and Gupta, B.R.K. “Temperature dependent cohesive and anharmonic properties of alkali crystals (cynide)”. Solid State Physics 29C, 181 (1986).
  • 31 Rawat, S.K., Goyal, R.P. and Gupta, B.R.K. “Dielectric properties of NaCl-NaBr and KCl-KBr mixed crystals systems”. Czech. J. Physics B37, 1288 (1987).
  • 32 Gupta, B.R.K. “Lattice vibrations in mixed alkali halide crystals”. Physics Stat. Sol. (b), 143, 77 (1987).
  • 33 Gupta, B.R.K. “Phonon dispersion in mixed valence compounds Sm0.75Y0.25S”. Phil. Mag. Letters 55, 231 (1987).
  • 34 Adhikari, R.S., Pant, N.C., Pathak, P.C. and Gupta, B.R.K. “Anharmonic elastic properties of hexahalometallate crystals, K­2SnCl6”. Solid State Physics 2C, (1987).
  • 35 Gupta, O.P., Goyal, R.P., Adhikari, R.S. and Gupta, B.R.K. “Dielectric and thermoelastic properties of alkaline earth fluoride crystals”. ILNUOVO CIMENTO, 9. 1397 (1987).
  • 36 Gupta, B.R.K. “Acoustic mode vibrational anharmonicity in intermediate valent compounds SmS”. Physics Stat Sol (b), 1, 88 (1988).
  • 37 Chauhan, S.K.S., Agrawal, Rashmi, Pathak, P.C., Goyal, R.P. and Gupta, B.R.K. “Thermal effect on thermophysical properties of alkali cyanide crystals”. Physics Stat Sol. (b), 146, 97 (1988).
  • 38 Goyal, R.P., Gupta, O.P. and Gupta, B.R.K. “Theory of compression in some fluoride crystals”. Physics Stat Sol. (b), 146, 485 (1988).
  • 39 Gupta, B.R.K., Adhikari, R.S., Gupta, O.P. and Goyal, R.P. “anharmonic elastic behaviour and Gruneisen parameters of hexahalometallate crystals”. J. Physics C21, L353-356 (1988).
  • 40 Pant, N.C., Gupta, B.R.K. and Goyal, R.P. “Temperature dependence of the elastic constants of natural (NH4)2TeCl and deuterated (MO2)2TeCl6 compounds”. Solid Stat Physics, 3D (1988).
  • 41 Sharma, Shobha, Goyal, R.P. and Gupta, B.R.K. “Bielectric and anharmonic behaviour of mixed alkali halides”. ILUOVO CIMENTO, 11D, 963 (1989).
  • 42 Mishra, C.N., Goyal, R.P. and Gupta, B.R.K. “Photoelastic behaviour of alkaline earth fluoride crystals”. Physics Stat Sol. (b), 155, K81 (1989).
  • 43 Milliou, Ahmad and Gupta, B.R.K. “Cohesive and elastic properties of alkaline earth chalcogenides crystals”. Czech J. Physics 9, 813 (1991).
  • 44 Sedegh, Adel and Gupta, B.R.K. “Analysis of anharmonic thermoelastic properties of non-centrosymmetric crystals”. Czech. J. Physics (1991).
  • 45 Sedegh, Adel, Milliou, Ahmad and Gupta, B.R.K. “Crystal binding and phase transition in copper halides”. Phys Stat Sol. (b), 167 (1991).
  • 46 Gupta, B.R.K., Kawald, U., Johannamann, H. and Pelzl, J. “Study of the temperature dependence of the elastic constants of natural and deuterated (NH42MCl6 compounds”. J. Physics C: Solid Styate Physics 4, 6879 (1992).
  • 47 Jain, Sanjeev, Kumar, Goyal, R.P. and Gupta, B.R.K. “Acoustic mode vibrational anharmonicity of hexahalometallate crystals”. Infrared Phys (U.K.) 33, 589 (1993).
  • 48 Gupta, B.R.K. “Static and thermoelastic properties of alkali cyanide crystals”. Infrared Phys (U.K.), 34, 333 (1992).
  • 49 Chaudhary Pradeepti, Singh, S.P. and Gupta, B.R.K. “Analysis of anharmonic elastic properties of anti-fluoride structure A2MX6 single crystals”. Infrared Physics Technol. 36, 743 (1995).
  • 50 Vandana Pal, Gupta, B.R.K. “Pressure dependence of Thermal expansivity for NaCl crystals”. International Conference on Condensed Matter Physics under high pressure (ICCMHP), India (1996).
  • 51 Govind and Gupta, B.R.K. “Application of high pressure equation of state for high Tc superconductors”. International Conference on Condensed Matter Physics under high pressure (ICCMHP), India (1996).
  • 52 Pandey, R.K. and Gupta, B.R.K. “An equation of state for high-temperature superconductors”. J. of Superconductivity 5, 595 (1997).
  • 53 Pal, Vandana, Gupta, B.R.K. and Kumar, M. “A simple approach for the determination of bulk modulus and equation of state under the effect of high temperature for minerals”. J. Phys and Chemistry of Minerals(Germany), 25, 227 (1998).
  • 54 Singh, Madan and Gupta, B.R.K., “Analysis of temperature dependence of elastic constants and bulk modulus of Alkaline earth solids,” Indian J. Pure & Appl. Physics 37, 517 (1999).
  • 55 V. Pal, Singh, Madan and Gupta, B.R.K., “ analysis of thermal expansion coefficients under the effect of high temperature forminerals “ J. Phys. Chem. 68, 1895 (1999).
  • 56 Singh, M., Singh, P.P. and Gupta, B.R.K., “Analysis of temperature dependence of elastic constant and bulk modulus of periclase (MgO) at high temperatures” Indian J. Physics 74A, 613(2000).
  • 57 Singh, M., Singh, P.P. , Gupta, B.R.K., and Kumar, M., “ Temperature and pressure dependence of elastic constants, High Temp.- High Pressure 33, 199 (2001)
  • 58 Prasad, A., Singh, M., and Gupta, B.R.K., “Study of elastic constants and bulk modulus of alkaline earth solids under the effect of high pressure”. Indian J. Phy. 76A, 381 (2002).
  • 59 K.Y. Singh & Gupta, B.R.K. “Analysis of temperature dependence of thermal expansion in (Mg1-xFex)SiO3 perovskites”. Solid State Physics , Vol. 45, pp. 32 . 2002.
  • 60 Singh, M.P., Ajay and Gupta, B.R.K., “Temperature dependence of the supercurrent density in bilayer cuprate superconductors. Physica C, 383, (2003).
  • 61 Singh, K.Y. and Gupta, B.R.K. “A simple approach to analysis the thermal expansion in minerals under the effect of high temperature, Physica B, 334 (2003).
  • 62 Kandipal, Deepika, Singh, K.Y and Gupta, B.R.K. “ Thermal expansion in copper under high temperature: Solid State Physics , Vol. 46, pp. 14 (2003),
  • 63 Kandpal, Deepika, Singh, K.Y and Gupta, B.R.K. “On pressure dependence of the relative compression (V/Vo) at room temperature from solids: Copper and lead as protoptypes”. Indian J. Physics 78A, 393 (2004).
  • 64 Singh, K.Y., Kandpal Deepika and Gupta, B.R.K. “Thermal expansivity of iron (Fe) metal at ultra-high pressure, Solid State Physics , Vol. 47, pp. 36 (2004).
  • 65 Kandpal, Deepika, Singh, K.Y. and Gupta, B.R.K., “Thermal properties of copper and aluminium at high temperature”. Indian J. Physics 79, 367 (2005).
  • 66 Kumar, Manoj, Kumar, M. and Gupta, B.R.K., “Pressure dependence of second order elastic constants of Argon” Solid State Physics , Vol. 50, 9 (2005).
  • 67 Joshi, Meenakshi, and Gupta, B.R.K., “Temperature dependence of adiabatic elastic moduli of (Mg1-x, Fex)2SiO4. Indian J. Physics 80, 85 (2006).
  • 68 Kumar, M., Kumar, Manoj, and Gupta, B.R.K., “Analysis of thermal expansivity of alkali halide crystals: NaF as an example”. Indian J. Phys. 80 (3), 307 (2006).
  • 69 Srivastava A.K. and Gupta B.R.K., “Compression behaviour of single wall carbon nanotube under high pressure”. Indian J. Phys. 80, 983-987 (2006).
  • 70 Kholiya, Kuldeep, and Gupta, B.R.K., “High-pressure behavior of some binary 1:1 actinide-arsenide compounds”. Physica B, 387, 271-275, (2007).
  • 71 Kandpal Deepika and Gupta B.R.K., “Analysis of thermal expansivity of iron (Fe) metal at ultra high temperature and pressure”. PRAMANA, 68 (1) 129-134, (2007).
  • 72 Kholiya, Kuldeep, and Gupta, B.R.K., “Structural phase transition and elastic properties of thorium pnictides at high pressure” PRAMANA 68 (4) 649-654, (2007).
  • 73 Chandra, Jeewan, Kandpal Deepika and Gupta, B.R.K., “High Pressure behaviour of MgO and CuO Nano crystals ”International J. Physics, 1, 1-8 (2008).
  • 74 Chandra, Jeewan, Kumar Ravindra and Gupta,B.R.K. “Temperature dependence of bulk modulus and second order elastic constants of minerals”. High temperature – High pressure. (U.K.) vol.1 pp.18-25 (2008).
  • 75 Chandra Jeewan, Kandpal Deepika and Gupta, B.R.K. “High temperature study of nanomaterials using integral form of equation of state (IFEOS)”. High temp- High pressure (U.K.), 37, 325-333 (2008).
  • 76 Chandra, Jeewan, Kandpal Deepika and Gupta, B.R.K. “Study of thermo-elastic properties of nanomaterials under high temperature”, Physica B (Netherland), 404, 1087-1091 (2009).
  • 77 Chandra Jeewan, Kandpal Deepika and Gupta, B.R.K. “Applicability of integral form of equation of state under high temperature,” High Temperature – High Pressure (U.K.), 38. 13-24 (2009).
  • 78 AK Srivastava, Samiksha Kumari and Gupta, BRK, “High pressure structure Phase transition in Uranium monochalcogenides”, Phase Transition, 83, 28-36 (2010).
  • 79 Kuldeep Kholiya, Swati Verma, Kailash Pandey and Gupta, BRK “High pressure behaviour of calcium chalcogenides” Physica B, 405, 2683-2686 (2010).
  • 80 Monika Goyal and B.R.K.Gupta, “Pressure dependence of compressional behavior of single walled carbon nanotube,” International Journal of Manufacturing Technology and Research, vol. 8, pp. 80-84, 2012. .
  • 81 Monika Goyal and B.R.K.Gupta, “Pressure induced phase transition in Zinc sulfide (10 nm-ZnS) Nano-crystal,” Research Journal of Recent Sciences, vol. 2, pp. 21-23, 2012.
  • 82 Monika Goyal and B.R.K.Gupta, “Study of compressional and elastic behavior of Nano- ZnO crystal at High Pressure,” Nanovision – International Journal of nanoscience and nanotechnology, vol. 3, pp. 29-35, 2013.
  • 83 B.R.K.Gupta and Monika Goyal, “Application of Nanotechnology in multidisciplinary Sciences & Society,” International Journal of Manufacturing Technology and Research, vol. 8, pp.14-20, 2012.
  • 84 Neetu Sorot, Monika Goyal and B.R.K. Gupta, “Temperature dependence of thermal expansivity of Carbon fullerene and 20-nm Nickel nanocrystal,” nanovision - International Journal of nanoscience and nanotechnology, vol. 3, pp. 62-69, 2013.
  • 85 Monika Goyal and B.R.K.Gupta, “Pressure induced phase transformation and instability of ZnS and ZnSe nanocrystals,” International Journal of Emerging Technologies in Computational and Applied Sciences, vol.5 (1), pp. 430-434, 2013. 47.
  • 86 Monika Goyal and B.R.K.Gupta, “Study of high pressure compression in nanomaterials,” International Journal of Engineering and Technical Research, vol. 2, pp. 286-288, 2014.
  • 87 Kuldeep Kholiya, Jeewan Chandra, Monika Goyal and B.R.K.Gupta. , “Pressure induced structural phase transition and elastic properties of barium and cerium selenide”, Indian J. of Materials Science, vol.10, pp. 515-521, 2014.
  • 88 Neetu Sorot and BRK Gupta “Study of volume Thermal expansion behaviour of nanomaterials under high temperature”, Scholar World (IRMJCR) VOL. 2, pp. 57-64, 2014.
  • 89 Monika Goyal & B.R.K.Gupta “Pressure induced structural phase transition and elastic properties of barium and cerium selenide”, Materials Science-an Indian journal, vol.10, pp. 515-521, 2014.
  • 90 Monika Goyal & B.R.K.Gupta, “Analysis of compression and elasticity of the nanocrystalline cubic silicon nitride (γ- Si3N4) under high pressure,” International Journal of Emerging Technologies in Computational and Applied Sciences, vol. 9, pp. 137 -140, 2014.
  • 91 Neetu Sorot, and B.R.K. Gupta, “Temperature dependence of thermal expansivity and volume expansion of silver (Ag) and gold (Au) nanometals,” International Journal of Manufacturing Technology and Research, vol. 10, pp. 37-39, 2014.
  • 92 Monika Goyal & B.R.K.Gupta, “ Comparative study of compression in fullerites and carbon nanotubes under high pressure, Indian J. of Materials Science,vol.13,pp. 359-363, 2015.
  • 93 Neetu Sorot, B.R.K. Gupta, and Jeewan Chandra”Behaviour of nanomaterials under pressure”, Condensed Matter Physics, vol. 1, pp. 18-22, 2015.
  • 94 Neetu Sorot and B.R.K.Gupta,”Effect of Temperature on thermal properties of Graphene”, Oriental J. Chemistry, vol.31, pp. 1327-1330, 2015.
  • 95 Neetu Sorot, Jeewan Chandra,Kuldeep Kholiya and B.R.K.Gupta “High Pressure & High Temperature Study of Nanocrystalline Foresterite”, High Temperatures.- High Pressures U.K., Vol. 45 Issue 2, p97-108, 2016.
  • 96 Monika Goyal and B.R.K.Gupta, ”Pressure dependent equation of state for nanomaterials”, High Temperatures.- High Pressure ,U.K. vol. 45,pp. 163-177, 2 2016
  • 97 Monika Goyal and B.R.K.Gupta “Pressure induced phase transition in Zinc sulfide (10 nm-ZnS) Nano-crystal”, Research Journal of Recent Sciences, vol. 2, pp. 21-23, 2012.
  • 98 Monika Goyal and B.R.K.Gupta “Temperature dependence of thermal expansivity of Carbon fullerene and 20-nm Nickel nanocrystal, Nanovision” - Journal of nanoscience and nanotechnology, vol. 3, pp. 62-69, 2013.
  • 99 Monika Goyal and B.R.K.Gupta “Pressure induced phase transformation and instability of ZnS and ZnSe nanocrystals” International Journal of Emerging Technologies in Computational and Applied Sciences, vol.5 (1), pp. 430-434, 2013.
  • 100 Monika Goyal and B.R.K.Gupta “Pressure induced structural phase transition and elastic properties of barium and cerium selenide” Materials Science, vol.10, pp. 515-521, 2014.
  • 101 Monika Goyal and B.R.K.Gupta “Analysis of compression and elasticity of the nanocrystalline cubic silicon nitride (γ- Si3N4) under high pressure” International Journal of Emerging Technologies in Computational and Applied Sciences, vol. 9, pp. 137 -140, 2014.
  • 102 Monika Goyal and B.R.K.Gupta “Comparative study of compression in fullerites and carbon nanotubes under high pressure,” Materials Science- an Indian Journal, vol.13, pp. 359-363, 2015.
  • 103 Monika Goyal and B.R.K.Gupta “Temperature dependent equation of state in Solids” Oriental j. chem.,vol. 32 (4),2193,2016.(Scopus)
  • 104 Monika Goyal and B.R.K.Gupta “Shape and size dependent thermophysical properties of nanocrystals” Chinese J. physics, vol. 56,282-291, 2018 (SCI).
  • 105 Monika Goyal and B.R.K.Gupta “Study of temperature dependent volume expansion in nanomaterials” High temperatures-high pressure, vol. 47, 51-63 ,2018 (SCI).
  • 106 Monika Goyal and B.R.K.Gupta “Size and shape dependent properties of wurtzite III nitride nanomaterials” High temperatures-high pressure, vol 47 (1),51-63 ,2018(SCI).
  • 107 Monika Goyal and B.R.K.Gupta “Analysis of thermoelastic properties of nanocrystalline Foresterite using thermodynamic equation of state” Chinese J. physics, vol. 55, 2017,760-768 (SCI).
  • 108 Monika Goyal and B.R.K.Gupta “Shape, size and temperature dependency of thermal expansion, lattice parameter and bulk modulus in nanomaterials”, Pramana J. physics, vol. 90 (6) ,80, 2018 (SCI).

 

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