Trapped ion emulation of electric dipole moment of neutral relativistic particles

TL;DR

This paper proposes a method to simulate the electric dipole moments of neutral relativistic particles using ion traps, enabling exploration of phenomena beyond current experimental reach.

Contribution

It introduces a novel simulation approach for the electric dipole moments of neutral particles via emulating an extended Dirac equation in ion traps.

Findings

Simulation framework for electric dipole moments

Potential to study beyond-standard-model physics

Enables experimental exploration of relativistic quantum effects

Abstract

The electric dipole moments of various neutral elementary particles, such as neutron, neutrinos, certain hypothetical dark matter particles and others, are predicted to exist by the standard model of high energy physics and various extensions of it. However, the predicted values are beyond the present experimental capabilities. We propose to simulate and emulate the electric dipole moment of neutral relativistic particles and the ensuing effects in the presence of electrostatic field by emulation of an extended Dirac equation in ion traps.