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Spectral kissing and its dynamical consequences in the squeeze-driven Kerr oscillator

https://doi.org/10.1038/s41534-023-00745-1

Chávez-Carlos, Jorge ; Lezama, Talía L. ; Cortiñas, Rodrigo G. ; Venkatraman, Jayameenakshi ; Devoret, Michel H. ; Batista, Victor S. ; Pérez-Bernal, Francisco ; Santos, Lea F. ( December 2023 , npj Quantum Information)

Abstract Transmon qubits are the predominant element in circuit-based quantum information processing, such as existing quantum computers, due to their controllability and ease of engineering implementation. But more than qubits, transmons are multilevel nonlinear oscillators that can be used to investigate fundamental physics questions. Here, they are explored as simulators of excited state quantum phase transitions (ESQPTs), which are generalizations of quantum phase transitions to excited states. We show that the spectral kissing (coalescence of pairs of energy levels) experimentally observed in the effective Hamiltonian of a driven SNAIL-transmon is an ESQPT precursor. We explore the dynamical consequences of the ESQPT, which include the exponential growth of out-of-time-ordered correlators, followed by periodic revivals, and the slow evolution of the survival probability due to localization. These signatures of ESQPT are within reach for current superconducting circuits platforms and are of interest to experiments with cold atoms and ion traps.
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Free, publicly-accessible full text available December 1, 2024
Spectral kissing and its dynamical consequences in the squeeze-driven Kerr oscillator

Chávez-Carlos, Jorge ; Lezama, Talía L. ; Cortiñas, Rodrigo ; Venkatraman, Jayameenakshi ; Devoret, Michel ; Batista, Victor ; Pérez-Bernal, Francisco ; Santos, Lea ( July 2023 , npj quantum information)

Transmon qubits are the predominant element in circuit-based quantum information processing, such as existing quantum computers, due to their controllability and ease of engineering implementation. But more than qubits, transmons are multilevel nonlinear oscillators that can be used to investigate fundamental physics questions. Here, they are explored as simulators of excited state quantum phase transitions (ESQPTs), which are generalizations of quantum phase transitions to excited states. We show that the spectral kissing (coalescence of pairs of energy levels) experimentally observed in the effective Hamiltonian of a driven SNAIL-transmon is an ESQPT precursor. We explore the dynamical consequences of the ESQPT, which include the exponential growth of out-of-time-ordered correlators, followed by periodic revivals, and the slow evolution of the survival probability due to localization. These signatures of ESQPT are within reach for current superconducting circuits platforms and are of interest to experiments with cold atoms and ion traps.
more » « less
Free, publicly-accessible full text available July 28, 2024
Static Effective Hamiltonian of a Rapidly Driven Nonlinear System

https://doi.org/10.1103/PhysRevLett.129.100601

Venkatraman, Jayameenakshi ; Xiao, Xu ; Cortiñas, Rodrigo G. ; Eickbusch, Alec ; Devoret, Michel H. ( August 2022 , Physical Review Letters)