Electronic structure in a rare-earth based nodal-line semimetal candidate PrSbTe

Sabin Regmi; Iftakhar Bin Elius; Anup Pradhan Sakhya; Milo Sprague; Mazharul Islam Mondal; Nathan A Valadez; Volodymyr Buturlim; Kali Booth; Tetiana Romanova; Krzysztof Gofryk; Andrzej Ptok; Dariusz Kaczorowski; Madhab Neupane

Electronic structure in a rare-earth based nodal-line semimetal candidate PrSbTe

ORAL

Abstract

Rare-earth (RE)-based RESbTe materials, isostructural to the nodal-line semimetal ZrSiS, have emerged as alternative avenue for nodal-line physics along with intriguing potentialities that the electronic correlation and magnetism may bring due to the presence of 4f electrons intrinsic to RE elements. Here, we have carried out an electronic structure study on PrSbTe by using angle-resolved photoemission spectroscopy (ARPES) supported by first-principles calculations and thermodynamic measurements. Thermodynamic characterizations indicate the absence of any discernible phase transitions down to 2 K. The results of ARPES measurements reveal the presence of gapless Dirac crossings that correspond to multiple nodal-lines in this system. This study contributes to the understanding of the pivotal role played by spin-orbit coupling in the context of RESbTe family of materials.

^* This work is supported by National Science Foundation CAREER award DMR-1847962, Air Force Office of Scientific Research MURI Grant FA9550-20-1-0322, Idaho National Laboratory’s Laboratory Directed Research and Development program under Idaho Operations Office Contract DE-AC07-05ID14517, and Division of Materials Science and Engineering, Office of Basic Energy Sciences, Office of Science of the U.S. Department of Energy.

March 5, 2024, 9:24 AM – March 5, 2024, 9:36 AM

Presenters

Sabin Regmi

Idaho National Laboratory, University of Central Florida, Department of Physics, University of Central Florida; Center for Quantum Actinide Science and Technology, Idaho National Laboratory, Department of Physics, University of Central Florida; Idaho National Laboratory

Authors

Sabin Regmi

Idaho National Laboratory, University of Central Florida, Department of Physics, University of Central Florida; Center for Quantum Actinide Science and Technology, Idaho National Laboratory, Department of Physics, University of Central Florida; Idaho National Laboratory
Iftakhar Bin Elius

University of central Florida, University of Central Florida, Department of Physics, University of Central Florida
Anup Pradhan Sakhya

University of Central Florida, Department of Physics, University of Central Florida
Milo Sprague

University of Central Florida, Department of Physics, University of Central Florida
Mazharul Islam Mondal

University of Central Florida, Department of Physics, University of Central Florida
Nathan A Valadez

University of Central Florida, Department of Physics, University of Central Florida
Volodymyr Buturlim

Center for Quantum Actinide Science and Technology, Idaho National Laboratory
Kali Booth

University of Central Florida, Department of Physics, University of Central Florida
Tetiana Romanova

Polish Academy of Sciences, Institute of Low Temperature and Structure Research, Polish Academy of Sciences
Krzysztof Gofryk

Idaho National Labs, Center for Quantum Actinide Science and Technology, Idaho National Laboratory
Andrzej Ptok

Institute of Nuclear Physics, Polish Academy of Sciences
Dariusz Kaczorowski

Institute of Low Temperature and Structure Research, Polish Academy of Sciences, Ok´olna 2, 50-422 Wroc law, Poland, Polish Academy of Sciences, Institute of Low Temperature and Structure Research, Polish Academy of Sciences
Madhab Neupane

University of Central Florida, Department of Physics, University of Central Florida