Sanku Paul scite author profile

Quantum systems lose coherence upon interaction with the environment and tend towards classical states. Quantum coherence is known to exponentially decay in time so that macroscopic quantum superpositions are generally unsustainable. In this work, slower than exponential decay of coherences is experimentally realized in an atom-optics kicked rotor system subjected to nonstationary Lévy noise in the applied kick sequence. The slower coherence decay manifests in the form of quantum subdiffusion that can be controlled through the Lévy exponent. The experimental results are in good agreement with the analytical estimates and numerical simulations for the mean energy growth and momentum profiles of an atom-optics kicked rotor.

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Quantum kicked rotor and its variants: Chaos, localization and beyond

Santhanam

Paul

Kannan

2022

Physics Reports

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Hidden Quantum Criticality and Entanglement in Quench Dynamics

Paul¹,

Titum²,

Maghrebi³

2022

Preprint

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Barrier-induced chaos in a kicked rotor: Classical subdiffusion and quantum localization

2016

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The relation between classically chaotic dynamics and quantum localization is studied in a system that violates the assumptions of the Kolmogorov-Arnold-Moser (KAM) theorem, namely, the kicked rotor in a discontinuous potential barrier. We show that the discontinuous barrier induces chaos and more than two distinct subdiffusive energy growth regimes, the latter being an unusual feature for Hamiltonian chaos. We show that the dynamical localization in the quantized version of this system carries the imprint of non-KAM classical dynamics through the dependence of quantum break time on subdiffusion exponents. We briefly comment on the experimental feasibility of this system.

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Sanku Paul

Nonexponential Decoherence and Subdiffusion in Atom-Optics Kicked Rotor

Quantum kicked rotor and its variants: Chaos, localization and beyond

Hidden Quantum Criticality and Entanglement in Quench Dynamics

Barrier-induced chaos in a kicked rotor: Classical subdiffusion and quantum localization

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