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This study presents the first lattice quantum chromodynamics (QCD) calculation of kaon decay amplitude A₀ using physical kinematics. The results offer a new test for the Standard Model

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Area of Science:

  • * Theoretical Particle Physics
  • * Quantum Chromodynamics (QCD)
  • * Hadron Spectroscopy

Background:

  • * Kaon decays are crucial for understanding CP violation in the Standard Model.
  • * Lattice QCD provides a non-perturbative approach to calculating fundamental particle physics quantities.
  • * Previous calculations of kaon decay amplitudes have faced limitations in precision and physical kinematics.

Purpose of the Study:

  • * To perform the first lattice QCD calculation of the complex kaon decay amplitude A₀ with physical kinematics.
  • * To determine the real and imaginary parts of A₀.
  • * To compute the direct CP-violating ratio Re(ϵ'/ϵ) and test the Standard Model's predictions.

Main Methods:

  • * Utilized lattice QCD with a 32³×64 lattice volume and a single lattice spacing (1/a=1.3784(68) GeV).
  • * Employed physical kinematics for the kaon decay amplitude calculation.
  • * Calculated statistical and systematic errors for the obtained amplitudes.

Main Results:

  • * Obtained Re(A₀)=4.66(1.00)(1.26)×10⁻⁷ GeV and Im(A₀)=-1.90(1.23)(1.08)×10⁻¹¹ GeV.
  • * The real part of A₀ is in approximate agreement with experimental values.
  • * Calculated Re(ϵ'/ϵ)=1.38(5.15)(4.59)×10⁻⁴, which is 2.1σ below the experimental value.

Conclusions:

  • * The real part of A₀ serves as a validation of the lattice QCD methodology.
  • * The calculated Re(ϵ'/ϵ) provides a new, precise test of the Standard Model's CP violation theory.
  • * Future improvements in computational power will enhance the accuracy of these predictions.