no code implementations • 24 Feb 2021 • Yuxun Ling, Florian Mintert
Cavity-optomechanics is an ideal platform for the generation non-Gaussian quantum states due to the anharmonic interaction between the light field and the mechanical oscillator; but exactly this interaction also impedes the preparation in pure states of the light field.
Quantum Physics
no code implementations • 15 Feb 2021 • Hongzheng Zhao, Adam Smith, Florian Mintert, Johannes Knolle
Quantum many-body scars have been put forward as counterexamples to the Eigenstate Thermalization Hypothesis.
Statistical Mechanics Quantum Gases Strongly Correlated Electrons Quantum Physics
no code implementations • 18 Jan 2021 • Takashi Mori, Hongzheng Zhao, Florian Mintert, Johannes Knolle, Roderich Moessner
The nonequilibrium quantum dynamics of closed many-body systems is a rich yet challenging field.
Statistical Mechanics Quantum Physics
no code implementations • 24 Jun 2020 • David Joseph, Adam Callison, Cong Ling, Florian Mintert
Analysis of the algorithms' performance on a quantum annealer and in numerical simulations show that the more qubit-efficient variant will outperform in the long run, while the other variant is more suitable for near-term implementation.
Quantum Physics
no code implementations • 12 May 2020 • Rick Mukherjee, Harry Xie, Florian Mintert
The ability to prepare non-classical states in a robust manner is essential for quantum sensors beyond the standard quantum limit.
1 code implementation • 26 Mar 2020 • Mahdi Sameti, Jake Lishman, Florian Mintert
Essentially all known quantum gates rely on a weak-coupling approximation resulting in linear dynamics.
Quantum Physics
no code implementations • 10 Jan 2020 • Rick Mukherjee, Frederic Sauvage, Harry Xie, Robert Löw, Florian Mintert
Ultra-cold atomic gases are unique in terms of the degree of controllability, both for internal and external degrees of freedom.