Quantum spin liquid (QSL) phases exist in theory, but real candidate QSL materials are often extraordinarily sensitive to structural defects which disrupt the ground state. Here, we investigate candidate triangular QSL material YbCu1.14Se2 and discover the absence of magnetic order, but also no compelling evidence of a QSL ground state due to significant structural disorder. We instead look at the results through a lens of a 2-dimensional (2D) random singlet phase. We are able to match thermodynamic measurements using a phenomenological model of a distribution of singlet formation. YbCu1.14Se2 behaves strikingly similar to other disordered triangular lattice materials, suggesting universal behavior of random singlet formation in 2D frustrated systems.
@article{arxiv.2509.26478,
title = {Random singlet physics in exchange disordered 2D triangular YbCu$_{1.14}$Se$_2$},
author = {Caitlin S. T. Kengle and Sean M. Thomas and Roman Movshovich and Shengzhi Zhang and Eun Sang Choi and Minseong Lee and Priscila F. S. Rosa and Allen O. Scheie},
journal= {arXiv preprint arXiv:2509.26478},
year = {2026}
}