@article{2119c009235a49638480837e325ea076,
title = "Microscopic Model for Fractional Quantum Hall Nematics",
abstract = "Geometric fluctuations of the density mode in a fractional quantum Hall (FQH) state can give rise to a nematic FQH phase, a topological state with a spontaneously broken rotational symmetry. While experiments on FQH states in the second Landau level have reported signatures of putative FQH nematics in anisotropic transport, a realistic model for this state has been lacking. We show that the standard model of particles in the lowest Landau level interacting via the Coulomb potential realizes the FQH nematic transition, which is reached by a progressive reduction of the strength of the shortest-range Haldane pseudopotential. Using exact diagonalization and variational wave functions, we demonstrate that the FQH nematic transition occurs when the system's neutral gap closes in the long-wavelength limit while the charge gap remains open. We confirm the symmetry-breaking nature of the transition by demonstrating the existence of a {"}circular moat{"}potential in the manifold of states with broken rotational symmetry, while its geometric character is revealed through the strong fluctuations of the nematic susceptibility and Hall viscosity.",
author = "Songyang Pu and Balram, {Ajit C.} and Joseph Taylor and Eduardo Fradkin and Zlatko Papi{\'c}",
note = "We thank Bo Yang, Joseph Maciejko, Mikael Fremling, Nicolas Regnault, and, in particular, Zhao Liu for useful discussions. S.\u2009P., J.\u2009T., and Z.\u2009P. acknowledge support from the Leverhulme Trust Research Leadership Award No. RL-2019-015. A.\u2009C.\u2009B. and Z.\u2009P. thank the Royal Society International Exchanges Award No. IES\\R2\\202052 for funding support. This research was supported in part by the International Centre for Theoretical Sciences (ICTS) for participating in the program\u2014Condensed Matter meets Quantum Information (code: ICTS/COMQUI2023/9). This research was supported in part by Grants No. NSF PHY-1748958 and No. PHY-2309135 to the Kavli Institute for Theoretical Physics (KITP), and DMR-2225920 at the University of Illinois (E.\u2009F.). This work was undertaken on ARC3 and ARC4, part of the High-Performance Computing facilities at the University of Leeds, UK, and on the Nandadevi supercomputer, which is maintained and supported by the Institute of Mathematical Science\u2019s High-Performance Computing Center, India. Some of the numerical calculations were performed using the DiagHam libraries . A.\u2009C.\u2009B. thanks the Science and Engineering Research Board (SERB) of the Department of Science and Technology (DST) for funding support via the Mathematical Research Impact Centric Support (MATRICS) Grant No. MTR/2023/000002.",
year = "2024",
month = jun,
day = "7",
doi = "10.1103/PhysRevLett.132.236503",
language = "English (US)",
volume = "132",
journal = "Physical review letters",
issn = "0031-9007",
publisher = "American Physical Society",
number = "23",
}