Hyunsoo Kimd img

Dr. Hyunsoo Kim

Assistant Professor

Physics

 

Specialization:

Experimental Condensed Matter Physics

Research Interests:

Dr. Hyunsoo Kim's research activities focus on quantum materials research and low-temperature experiment with various techniques. His expertise includes the 0.001ppm precision measurement utilizing rf-techniques with the frequency ranging from MHz to GHz at the mK temperature range and high magnetic fields. He is interested in understanding fundamental physics and in the discovery of novel quasiparticles and their interactions in solid-state systems. He is also interested in the application of exotic matters such as topological phases to the new information technology that includes quantum devices and quantum computation.

Publications:

View publications

Education:
  • 2013: PhD in Physics: Iowa State University

Selected Publications

  • H. Kim, M. A. Tanatar, H. Hodovanets, K. Wang, J. Paglione, R. Prozorov, Campbell penetration depth in low carrier density superconductor YPtBi, Phys. Rev. B 104, 014510 (2021).
  • H. Kim, J. Lee, H. Hodovanets, K. Wang, J. D. Sau, J. Paglione, Quantum Oscillations in a Spin-3/2 Topological Semimetal, preprint arXiv:2010.12085 (2020).
  • H. Kim, K. Cho, M. A. Tanatar, V. Taufour, S. K. Kim, S. L. Bud'ko, P. C. Canfield, V. G. Kogan and R. Prozorov, Self-Consistent Two-Gap Description of MgB2 Superconductor, Symmetry 11, 1012 (2019).
  • H. Kim, K. Wang, Y. Nakajima, R. Hu, S. Ziemak, P. Syers, L. Wang, H. Hodovanets, J. D. Denlinger, P. M. R. Brydon, D. F. Agterberg, M. A. Tanatar, R. Prozorov, J. Paglione, Beyond Triplet: Unconventional Superconductivity in a Spin-3/2 Topological Semimetal, Sci. Adv. 4, eaao4513 (2018).
  • H. Kim, M. A. Tanatar, Ruslan Prozorov, Tunnel diode resonator for precision magnetic susceptibility measurements in a mK range and large DC magnetic fields, Rev. Sci. Instrum. 89, 094704 (2018)
  • H. Kim, M. A. Tanatar, C. Martin, E. C. Blomberg, N. Ni, S. L. Bud'ko, P. C. Canfield, R. Prozorov, Universal doping evolution of the superconducting gap anisotropy in single crystals of electron-doped Ba(Fe1−xRhx)2As2 from London penetration depth measurements, J. Phys.: Condens. Matter 30, 225602 (2018).

Classes

Physics 3119/3129 Advanced Lab