npj Quantum Information (Jun 2021)

Robust preparation of many-body ground states in Jaynes–Cummings lattices

  • Kang Cai,
  • Prabin Parajuli,
  • Guilu Long,
  • Chee Wei Wong,
  • Lin Tian

DOI
https://doi.org/10.1038/s41534-021-00433-y
Journal volume & issue
Vol. 7, no. 1
pp. 1 – 9

Abstract

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Abstract Strongly correlated polaritons in Jaynes–Cummings (JC) lattices can exhibit quantum phase transitions between the Mott-insulating and superfluid phases at integer fillings. The prerequisite to observe such phase transitions is to pump polariton excitations into a JC lattice and prepare them into appropriate ground states. Despite previous efforts, it is still challenging to generate many-body states with high accuracy. Here, we present an approach for the robust preparation of many-body ground states of polaritons in finite-sized JC lattices by optimized nonlinear ramping. We apply a Landau–Zener type of estimation to this finite-sized system and derive the optimal ramping index for selected ramping trajectories, which can greatly improve the fidelity of the prepared states. With numerical simulation, we show that by choosing an appropriate ramping trajectory, the fidelity in this approach can remain close to unity in almost the entire parameter space. This approach can shed light on high-fidelity state preparation in quantum simulators and advance the implementation of quantum simulation with practical devices.