Emulation of fractional quantum Hall states with existing quantum hardware

Armin Rahmani; Pouyan Ghaemi; Zhang Jiang; Pedram Roushan; Kevin J Sung

Emulation of fractional quantum Hall states with existing quantum hardware

ORAL

Abstract

Emulating strongly correlated phases of matter with existing or near-term quantum hardware is of considerable interest. Here we present quantum circuits to generate both the ground and quasiparticle states corresponding to the Laughlin's $\nu=1/3$ fractional quantum Hall state in the second-quantized representation. Our circuit depth is linear in the number of qubits. We identify experimentally accessible correlation functions as signatures of this state and discuss the quantum hardware implementation.

^*Google Quantum Innovation Award

March 2, 2020, 9:24 AM – March 2, 2020, 9:36 AM

Presenters

Armin Rahmani
- Western Washington University

Authors

Armin Rahmani
- Western Washington University
Pouyan Ghaemi
- The City College of New York
- Department of Physics, City College of the City University of New York
- City College of the City University of New York
Zhang Jiang
- Google Inc - Santa Barbara
- Google Inc.
- Google Research, Venice, CA
Pedram Roushan
- Google Inc - Santa Barbara
- Google Inc., Santa Barbara, CA
Kevin J Sung
- Google Research and the University of Michigan