Dr. Keshav Shrestha's Research Group

Low Temperature and High Pressure Physics

 

 

    2022
  1. K. Shrestha, R. Chapai, Bal K. Pokharel, D. Mierstchin, T. Nguyen, X. Zhou, D. Y. Chung, M. G. Kanatzidis, J. F. Mitchell, U. Welp, Dragana Popović, D. E. Graf, B. Lorenz, and W. K. Kwok “Nontrivial Fermi surface topology of the kagome superconductor CsV3Sb5 probed by de Haas–van Alphen oscillations.", Physical Review B 105, 024508 (2022).

  2. 2021
  3. Keshav Shrestha, Duncan Miertschin, Raman Sankar, Bernd Lorenz, and Ching W Chu “Large magnetoresistance and quantum oscillations in Sn0.05Pb0.95Te", J. Phys.: Condens. Matter 33, 335501 (2021).

  4. Keshav Shrestha, Shengzhi Zhang, Laura H Greene, You Lai, RE Baumbach, Kalyan Sasmal, M Brian Maple, and Wan Kyu Park “Spectroscopic evidence for the direct involvement of local moments in the pairing process of the heavy-fermion superconductor CeCoIn5", Physical Review B 103, 224515 (2021).

  5. Daniel J Antonio, Joel T Weiss, Katherine S Shanks, Jacob PC Ruff, Marcelo Jaime, Andres Saul, Thomas Swinburne, Myron Salamon, Keshav Shrestha, Barbara Lavina, Daniel Koury, Sol M Gruner, David A Andersson, Christopher R Stanek, Tomasz Durakiewicz, James L Smith, Zahirul Islam, and Krzysztof Gofryk “Piezomagnetic switching and complex phase equilibria in uranium dioxide", Communications Materials 2, 17 (2021).

  6. 2020
  7. K. Shrestha, L. Z. Deng, K. Zhao, B. I. Jawdat, B. Lv, B. Lorenz, and C. W. Chu “Doping dependence and high-pressure studies on EuxCa1-xFe2As2 (0 ≤ x ≤ 1),” Supercond. Sci. Technol. 33, 095010 (2020).

  8. 2019
  9. K. Shrestha, T. Yao, J. Lian, D. Antonio, M. Tonks, and K. Gofryk “The grain-size effect on thermal conductivity of uranium dioxide”, Journal of Applied Physics 129, 125116 (2019).

  10. K. Shrestha, M. Gooch, B. Lorenz and C. W. Chu “Experimental Setup of Ac Thermoelectric Power Measurements in a Cryocooler PPMS System and Its Implementation to Superconductors, Topological Insulator, and Thermoelectric Materials,” Instruments and Experimental Techniques 62, 298 (2019).

  11. 2018
  12. K. Shrestha, D. Antonio, J-C Griveau, K. Prokeš, P. Gaczyński, E. Colineau, R. Caciuffo, and K. Gofryk “Magnetic and electronic properties of NpPdSn,” Physical Review Materials 2, 074401 (2018).

  13. D. Antonio, K. Shrestha, Y. Zhang, J. M. Harp, J. Carmeck, and K. Gofryk “Thermal and Transport Properties of U3Si2” Journal of Nuclear Materials 508, 154 (2018).

  14. K. Shrestha and K. Gofryk “Combination of thermal and electric properties measurement techniques in a single setup suitable for radioactive materials in controlled environments and based on the 3w approach,” Review of Scientific Instruments 89, 043905 (2018).

  15. K. Shrestha, V. Marinova, B. Lorenz and C. W. Chu, “Evidence of a 2D Fermi surface due to surface states in a p-type metallic Bi2Te3”, Journal of Physics: Conden. Matter 30 185601 (2018).

  16. 2017
  17. K. Shrestha, D. Graf, V. Marinova, B. Lorenz, C. W. Chu “Weak antilocalization effect due to topological surface states in Bi2Se2.1Te0.9”, Journal of Applied Physics 122, 145901 (2017).

  18. K. Shrestha, V. Marinova, D. Graf, B. Lorenz and C. W. Chu, “Large magnetoresistance and Fermi surface study of Sb2Se2Te single crystal”, Journal of Applied Physics 122, 125901 (2017).

  19. K. Shrestha, D. Antonio, M. Jaime, N. Harrison, D. S. Mast, D. Safarik, T. Durakiewicz, J. –C. Griveau, and K. Gofryk “Tricritical point from high-field magnetoelastic and metamagnetic effects in UN,” Nature Scientific Reports 7, 6642 (2017).

  20. K. Shrestha, M. Chou, D. Graf, H. D. Yang, B. Lorenz and C. W. Chu “Extremely large magnetoresistance and ultra-high mobility due to topological surface states in metallic Bi2Te3,” Physical Review B 95, 195113 (2017).

  21. K. Shrestha, D. E. Graf, V. Marinova, B. Lorenz, and C. W. Chu, “Simultaneous detection of quantum oscillations from bulk and topological surface states in metallic Bi2Se2.1Te0.9” Philosophical Magazine 97, 1740 (2017).

  22. K. Shrestha, D. Graf, V. Marinova, B. Lorenz, C. W. Chu “Quantum Oscillations in metallic Sb2Te2Se topological insulator,” Physical Review B 95, 075102 (2017).

  23. 2014
  24. K. Shrestha, V. Marinova, B. Lorenz and C. W. Chu “Shubnikov de Haas Oscillations from topological surface states of metallic Bi2Se2.1Te0.9,” Physical Review B 90, 241111 (R), (2014).

  25. 2013
  26. C. W. Chu, B. Lv, L Z Deng, B. Lorenz, B. Jawdat, K. Shrestha, K. Zhao, X. Y. Zhu, Y. Y. Xue, and F. Y. Wei. “The Rise of Tc: A Promising Paradigm via Interfacial Mechanism,” J. Phys.:Conf. Ser. 449, 012014, (2013).