A new search for the atomic EDM of $^{129}$Xe at FRM-II

Kuchler, F.; Fan, I.; Salhi, Z.; Kraegeloh, E.; Chupp, T.; Degenkolb, S.; Trahms, L.; Seifert, F.; Schnabel, A.; Singh, J.; Sachdeva, N.; Gong, F.; Marino, M.; Babcock, E.; Voigt, J.; Burghoff, M.; Stuiber, S.; Fierlinger, P.; Kilian, W.; Meinel, J.; Lins, T.; Niessen, B.; Knappe-Grüneberg, S.

doi:10.1007/s10751-016-1302-9

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@ARTICLE{Kuchler:827881,
      author       = {Kuchler, F. and Babcock, E. and Burghoff, M. and Chupp, T.
                      and Degenkolb, S. and Fan, I. and Fierlinger, P. and Gong,
                      F. and Kraegeloh, E. and Kilian, W. and Knappe-Grüneberg,
                      S. and Lins, T. and Marino, M. and Meinel, J. and Niessen,
                      B. and Sachdeva, N. and Salhi, Z. and Schnabel, A. and
                      Seifert, F. and Singh, J. and Stuiber, S. and Trahms, L. and
                      Voigt, J.},
      title        = {{A} new search for the atomic {EDM} of $^{129}${X}e at
                      {FRM}-{II}},
      journal      = {Hyperfine interactions},
      volume       = {237},
      number       = {1},
      issn         = {1572-9540},
      address      = {Dordrecht [u.a.]},
      publisher    = {Springer Science + Business Media B.V},
      reportid     = {FZJ-2017-01964},
      pages        = {95},
      year         = {2016},
      abstract     = {Permanent electric dipole moments (EDMs) arise due to the
                      breaking of time-reversal or, equivalently, CP-symmetry.
                      Although EDM searches have so far only set upper limits,
                      which are many orders of magnitude larger than Standard
                      Model (SM) predictions, the motivation for more sensitive
                      searches is stronger than ever. A new effort at FRM-II
                      incorporating 129Xe and 3He as a co-magnetometer can
                      potentially improve the current limit. The noble gas mixture
                      of 129Xe and 3He is simultanously polarized by spin-exchange
                      optical pumping and then transferred into a high-performance
                      magnetically shielded room. Inside, both species can freely
                      precess in the presence of applied magnetic and electric
                      fields. The precession signals are detected by LTc SQUID
                      sensors. In EDM cells with silicon electrodes we observed
                      spin lifetimes in excess of 2500 s without and with
                      high-voltage applied. This meets one requirement to achieve
                      our goal of improving the EDM limit on 129Xe by several
                      orders of magnitude.},
      cin          = {JCNS (München) ; Jülich Centre for Neutron Science JCNS
                      (München) ; JCNS-FRM-II / JCNS-2 / Neutronenstreuung ;
                      JCNS-1},
      ddc          = {530},
      cid          = {I:(DE-Juel1)JCNS-FRM-II-20110218 /
                      I:(DE-Juel1)JCNS-2-20110106 / I:(DE-Juel1)JCNS-1-20110106},
      pnm          = {6G15 - FRM II / MLZ (POF3-6G15) / 6G4 - Jülich Centre for
                      Neutron Research (JCNS) (POF3-623)},
      pid          = {G:(DE-HGF)POF3-6G15 / G:(DE-HGF)POF3-6G4},
      experiment   = {EXP:(DE-MLZ)EDM-20140101},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000379022200004},
      doi          = {10.1007/s10751-016-1302-9},
      url          = {https://juser.fz-juelich.de/record/827881},
}

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