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Related Experiment Video

Updated: Jul 5, 2025

Irrelevant Stimuli and Action Control: Analyzing the Influence of Ignored Stimuli via the Distractor-Response Binding Paradigm
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Tight-binding model subject to conditional resets at random times.

Anish Acharya1, Shamik Gupta1

  • 1Department of Theoretical Physics, Tata Institute of Fundamental Research, Homi Bhabha Road, Mumbai 400005, India.

Physical Review. E
|January 20, 2024
PubMed
Summary
This summary is machine-generated.

We studied a quantum system with conditional resetting, finding it localizes particles at reset sites. This localization depends on reset site choice and reset time distribution, influencing stationary state attainment.

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Area of Science:

  • Quantum dynamics
  • Statistical physics

Background:

  • Quantum systems exhibit complex dynamics under external influences.
  • Resetting protocols introduce non-unitary evolution, altering system behavior.

Purpose of the Study:

  • Investigate quantum system dynamics under conditional resetting.
  • Analyze particle localization and stationary state formation.
  • Explore effects of different reset time distributions and external forcing.

Main Methods:

  • Utilized the tight-binding model for a 1D open lattice.
  • Derived analytical results for site-occupation probability.
  • Examined exponential and power-law reset time distributions.
  • Incorporated Floquet-type Hamiltonian for periodic forcing.

Main Results:

  • Under exponential resetting, the system localizes particles at reset sites.
  • Reset site selection dictates spatial profile and relative probabilities.
  • Power-law resetting may prevent stationary state attainment depending on mean reset time.
  • Asymmetric spatial profiles can be engineered.

Conclusions:

  • Conditional resetting drives quantum systems to localized stationary states.
  • The interplay between reset strategy and inherent dynamics is crucial.
  • Stationary state existence is contingent on reset time distribution properties.