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Photon-Instanton Collider Implemented by a Superconducting Circuit.

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Area of Science:

  • Quantum Field Theory
  • Condensed Matter Physics
  • Circuit Quantum Electrodynamics

Background:

  • Instantons are quantum field tunneling events crucial in condensed matter and high-energy physics.
  • Direct observation of instanton collisions with particles was previously considered impossible.

Purpose of the Study:

  • To demonstrate the observation of inelastic collisions between single microwave photons and instantons.
  • To develop a theoretical framework for calculating photon-instanton cross sections.

Main Methods:

  • Utilizing advances in circuit quantum electrodynamics, specifically galvanic coupling of a transmon qubit to a high-impedance transmission line.
  • Developing a formalism to calculate the photon-instanton cross section.

Main Results:

  • Successfully observed inelastic collisions of single microwave photons with instantons (phase slips).
  • The calculated inelastic scattering probability can exceed conventional Josephson quartic anharmonicity, reaching order-unity values.

Conclusions:

  • The study presents a novel method for observing and quantifying interactions with instantons.
  • The developed formalism is applicable to other quantum field theory contexts, opening new avenues for research.