A New Method For A Sensitive Deuteron EDM Experiment

Y.K. Semertzidis; M. Aoki; M. Auzinsh; V. Balakin; A. Bazhan; G.W.; Bennett; R.M. Carey; P. Cushman; P.T. Debevec; A. Dudnikov; F.J.M. Farley,; D.W. Hertzog; M. Iwasaki; K. Jungmann; D. Kawall; B. Khazin; I.B.; Khriplovich; B. Kirk; Y. Kuno; D.M. Lazarus; L.B. Leipuner; V. Logashenko,; K.R. Lynch; W.J. Marciano; R. McNabb; W. Meng; J.P. Miller; W.M. Morse,; C.J.G. Onderwater; Y.F. Orlov; C.S. Ozben; R. Prig; S. Rescia; B.L. Roberts,; N. Shafer-Ray; A. Silenko; E.J. Stephenson; K. Yoshimura

arXiv:hep-ex/0308063·hep-ex·November 10, 2009

A New Method For A Sensitive Deuteron EDM Experiment

Y.K. Semertzidis, M. Aoki, M. Auzinsh, V. Balakin, A. Bazhan, G.W., Bennett, R.M. Carey, P. Cushman, P.T. Debevec, A. Dudnikov, F.J.M. Farley,, D.W. Hertzog, M. Iwasaki, K. Jungmann, D. Kawall, B. Khazin, I.B., Khriplovich, B. Kirk, Y. Kuno, D.M. Lazarus, L.B. Leipuner

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TL;DR

This paper introduces a novel method for measuring the deuteron electric dipole moment in storage rings, aiming to significantly improve sensitivity and constrain T-odd nuclear forces more tightly.

Contribution

The paper presents a new experimental approach that enhances the sensitivity of deuteron EDM measurements by two orders of magnitude compared to existing methods.

Findings

01

Potential to reach a sensitivity of 10^(-27) e·cm

02

Improves limits on T-odd nuclear forces by two orders of magnitude

03

Proposes a feasible experimental setup for future measurements

Abstract

In this paper a new method is presented for particles in storage rings which could reach a statistical sensitivity of 10**(-27) e cm for the deuteron EDM. This implies an improvement of two orders of magnitude over the present best limits on the T-odd nuclear forces ksi parameter.

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