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首页|Quasi-frozen spin for both deuteron and proton beam at periodic EDM storage ring lattice

Quasi-frozen spin for both deuteron and proton beam at periodic EDM storage ring lattice

Kolokolchikov, Mr. Sergey Senichev, Yu. V. Melnikov, Mr. Alexey ksentev, A. E. Palamarchuk, Miss Patricia

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Quasi-frozen spin for both deuteron and proton beam at periodic EDM storage ring lattice

Quasi-frozen spin for both deuteron and proton beam at periodic EDM storage ring lattice

Kolokolchikov, Mr. Sergey 1Senichev, Yu. V. 1Melnikov, Mr. Alexey 2ksentev, A. E. 3Palamarchuk, Miss Patricia4

作者信息

  • 1. MIPT;FSBIS INR RAS
  • 2. FSBSI L D Landau Institute for Theoretical Physics of Russian Academy of Sciences;MIPT;FSBIS INR RAS
  • 3. National Research Nuclear University MEPhI;MIPT;FSBIS INR RAS
  • 4. National Research Nuclear University MEPhI;FSBIS INR RAS
  • 折叠

摘要

A novel experimental setup with spatially separated magnetic and electrostatic fields is proposed for proton and deuteron electric dipole moment (EDM) studies. The lattice design, which employs a spin compensator to achieve the “quasi-frozen” spin condition for precise measurements, demonstrates adaptability to existing facilities for high energy physics research.

Abstract

A novel experimental setup with spatially separated magnetic and electrostatic fields is proposed for proton and deuteron electric dipole moment (EDM) studies. The lattice design, which employs a spin compensator to achieve the quasi-frozen spin condition for precise measurements, demonstrates adaptability to existing facilities for high energy physics research.

关键词

Quasi-frozen spin/Wien filter/Electric dipole moment/Electrostatic deflector

引用本文复制引用

Kolokolchikov, Mr. Sergey,Senichev, Yu. V.,Melnikov, Mr. Alexey,ksentev, A. E.,Palamarchuk, Miss Patricia.Quasi-frozen spin for both deuteron and proton beam at periodic EDM storage ring lattice[EB/OL].(2025-07-02)[2026-04-16].https://chinaxiv.org/abs/202507.00004.

学科分类

物理学

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首发时间 2025-07-02
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