Resonance method of electric-dipole-moment measurements in storage rings

Yuri F. Orlov (1; 2); William M. Morse (1); Yannis K. Semertzidis; (1) ((1) Brookhaven National Laboratory; (2) Cornell University)

arXiv:hep-ex/0605022·hep-ex·November 11, 2009

Resonance method of electric-dipole-moment measurements in storage rings

Yuri F. Orlov (1, 2), William M. Morse (1), Yannis K. Semertzidis, (1) ((1) Brookhaven National Laboratory, (2) Cornell University)

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TL;DR

This paper introduces a resonance method for measuring nuclear electric dipole moments in storage rings, utilizing oscillating particle velocities and dual sub-beams to enhance measurement accuracy and correct for false signals.

Contribution

It presents a novel resonance approach with two key ideas: velocity oscillation in resonance and dual sub-beams for improved error correction.

Findings

01

Enhanced sensitivity in EDM measurements.

02

Effective correction of false signals from ring imperfections.

03

Potential for more precise nuclear EDM detection.

Abstract

A resonance method of measuring the electric dipole moment (EDM) of nuclei in storage rings is described, based on two new ideas: (1) Oscillating particles' velocities in resonance with spin precession, and (2) alternately producing two sub-beams with different betatron tunes--one sub-beam to amplify and thus make it easier to correct ring imperfections that produce false signals imitating EDM signals, and the other to make the EDM measurement.

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