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Quantum State Engineering of Light with Continuous-wave Optical Parametric Oscillators
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Bayesian optimization for inverse problems in time-dependent quantum dynamics.

Z Deng1, I Tutunnikov2, I Sh Averbukh2

  • 1Department of Chemistry, University of British Columbia, Vancouver, British Columbia V6T 1Z1, Canada.

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|November 3, 2020
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Summary
This summary is machine-generated.

This study introduces an efficient algorithm for quantum dynamics inverse problems using Bayesian surrogate models and feedback loops. The method significantly reduces computation by optimizing Hamiltonian parameters for molecular simulations.

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Area of Science:

  • Quantum Dynamics
  • Computational Chemistry
  • Molecular Physics

Background:

  • Inverse problems in quantum dynamics are computationally intensive.
  • Accurate determination of molecular properties requires solving the Schrödinger equation.

Purpose of the Study:

  • To develop an efficient algorithm for solving inverse problems in time-dependent quantum dynamics.
  • To reduce the computational cost of determining molecular properties like polarizability tensors.

Main Methods:

  • Utilizing feedback loops between Hamiltonian parameters and Schrödinger equation solutions.
  • Employing Bayesian surrogate models, specifically Gaussian processes with vector outputs and composite kernels.
  • Using the Bayesian Information Criterion (BIC) for kernel selection.
  • Applying Bayesian optimization for inverse problems with noisy data.

Main Results:

  • The developed algorithm reduces feedback loop iterations by at least a factor of 3.
  • Successfully determined molecular polarizability tensor components for SO2 and propylene oxide (PPO).
  • Achieved accurate results for PPO with as few as 30 quantum dynamics calculations.

Conclusions:

  • The proposed Bayesian surrogate model approach offers an efficient solution for inverse problems in quantum dynamics.
  • This method significantly accelerates the determination of molecular properties from simulated quantum dynamics data.
  • The algorithm is robust and applicable to complex molecules and noisy experimental data.