Zero-point entropies of spin-jam and spin-glass states in a frustrated magnet

Authors

C. Piyakulworawat, Faculty of Science, Mahidol University
A. Thennakoon, University of Virginia
J. Yang, University of Virginia
H. Yoshizawa, The University of Tokyo
D. Ueta, The University of Tokyo
T. J. Sato, Tohoku University
K. Sheng, National Taiwan University
W. T. Chen, National Taiwan University
W. W. Pai, National Taiwan University
K. Matan, Faculty of Science, Mahidol University
S. H. Lee, University of Virginia

Document Type

Article

Publication Date

3-1-2024

Abstract

Thermodynamics studies of a prototypical quasi-two-dimensional frustrated magnet, Ba2Sn2ZnCr7pGa10-7pO22, where the magnetic Cr3+ ions are arranged in a triangular network of bipyramids show that the magnetic zero-point entropy for p=0.98 is 55(1)% of the entropy expected when the Cr3+ moments are fully disordered. Furthermore, when combined with a previous neutron scattering study and the perimeter scaling entropy of a spin jam, the analysis reveals that with decreasing p, i.e., doping of the nonmagnetic Ga3+ ions, the variation in the magnetic zero-point entropy can be well explained by the combined effects of the zero-point entropy of the spin jam state and that of weakly coupled orphan spins, shedding light on the coexistence of the two types of spin states in quantum magnetism.

Identifier

85188426934 (Scopus)

Publication Title

Physical Review B

External Full Text Location

https://doi.org/10.1103/PhysRevB.109.104420

e-ISSN

24699969

ISSN

24699950

Issue

10

Volume

109

Grant

19H01834

Fund Ref

Thailand Center of Excellence in Physics

Recommended Citation

Piyakulworawat, C.; Thennakoon, A.; Yang, J.; Yoshizawa, H.; Ueta, D.; Sato, T. J.; Sheng, K.; Chen, W. T.; Pai, W. W.; Matan, K.; and Lee, S. H., "Zero-point entropies of spin-jam and spin-glass states in a frustrated magnet" (2024). Faculty Publications. 586.
https://digitalcommons.njit.edu/fac_pubs/586