First-principles derivation of magnetic interactions in the triangular quantum spin liquid candidates KYbCh<sub>2</sub> (Ch=S, Se, Te) and AYbSe<sub>2</sub> (A=Na, Rb)

John W Villanova; Allen O Scheie; David A Tennant; Satoshi Okamoto; Tom Berlijn

First-principles derivation of magnetic interactions in the triangular quantum spin liquid candidates KYbCh₂ (Ch=S, Se, Te) and AYbSe₂ (A=Na, Rb)

ORAL

Abstract

The AYbCh₂ (A=alkali metal, Ch=chalcogen) delafossites hold great promise for the realization of the triangular quantum spin liquid state because of their defect-minimized growth and lack of magnetic ordering down to extremely low temperature. Here we use ab initio computations and strong coupling perturbation theory to evaluate the exchange couplings of the delafossites and examine the influence of chemical substitution on promoting the development of a quantum spin liquid state.

^* This work was led by the U.S. Department of Energy, Office of Science, National Quantum Information Science Research Centers, Quantum Science Center.

March 7, 2024, 10:12 AM – March 7, 2024, 10:24 AM

Publication: John W. Villanova, Allen O. Scheie, D. Alan Tennant, Satoshi Okamoto, and Tom Berlijn, "First-principles derivation of magnetic interactions in the triangular quantum spin liquid candidates KYbCh2 (Ch=S, Se, Te) and AYbSe2 (A=Na, Rb)", Phys. Rev. Research 5, 033050 (2023).

Presenters

John W Villanova

Oak Ridge National Laboratory

Authors

John W Villanova

Oak Ridge National Laboratory
Allen O Scheie

Los Alamos National Laboratory
David A Tennant

the University of Tennessee at Knoxville, Oak Ridge National Lab, University of Tennessee, Knoxville, University of Tennessee
Satoshi Okamoto

Oak Ridge National Laboratory, Oak Ridge National Lab
Tom Berlijn

Oak Ridge National Laboratory