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@ARTICLE{Watanabe:219843,
      author       = {Watanabe, Y. N. and Berg, G. P. A. and Dozono, M. and
                      Fujioka, H. and Fukuda, N. and Furuno, T. and Geissel, H.
                      and Hayano, R. S. and Inabe, N. and Itahashi, K. and Itoh,
                      S. and Kameda, D. and Kubo, T. and Matsubara, H. and
                      Michimasa, S. and Miki, K. and Miya, H. and Murakami, Y. and
                      Nakamura, M. and Nakatsuka, N. and Nishi, T. and Noji, S.
                      and Okochi, K. and Ota, S. and Suzuki, H. and Suzuki, K. and
                      Takaki, M. and Takeda, H. and Tanaka, Y. K. and Todoroki, K.
                      and Tsukada, K. and Uesaka, T. and Weick, H. and Yamada, H.
                      and Yamakami, H. and Yoshida, K.},
      title        = {{S}tatus and future plan of the spectroscopy of pionic
                      atoms},
      journal      = {Journal of physics / Conference Series Conference Series},
      volume       = {503},
      issn         = {1742-6596},
      address      = {Bristol},
      publisher    = {IOP Publ.},
      reportid     = {GSI-2019-00835},
      pages        = {012037},
      year         = {2014},
      abstract     = {The spectroscopy of deeply bound pionic atoms provides a
                      way to understand the restoration of chiral symmetry
                      breaking at finite density. We have been performing a series
                      of experiments of missing-mass spectroscopy of the (d,3He)
                      reaction at RIBF to investigate pionic atoms of several Sn
                      isotopes. As a first step, we conducted a pilot experiment
                      to measure deeply bound pionic states of 121Sn and
                      successfully observed the deeply bound pionic states. In
                      addition to the experiment at RIBF, we are planning the
                      spectroscopy of deeply bound pionic atoms in inverse
                      kinematics and conducted a feasible study by simulations. We
                      showed that by using a deuterium gaseous active target TPC
                      and silicon detectors, the Q-value resolution is about 500
                      keV (FWHM) and the yield of the pionic 1s state is 20
                      counts/day, indicating the experiment is feasible.},
      month         = {Sep},
      date          = {2013-09-16},
      organization  = {2nd FAIR NExt generation ScientistS,
                       Berlin (Germany), 16 Sep 2013 - 21 Sep
                       2013},
      cin          = {FRS / SuperFRS-EC@FAIR},
      ddc          = {530},
      cid          = {I:(DE-Ds200)FRS-20110310OR124 /
                      I:(DE-Ds200)Coll-FAIR-SuperFRS-EC},
      pnm          = {533 - Exotic Nuclei and Nuclear Astrophysics (ENNA)
                      (POF2-533)},
      pid          = {G:(DE-HGF)POF2-533},
      typ          = {PUB:(DE-HGF)16},
      UT           = {WOS:000336120200037},
      doi          = {10.1088/1742-6596/503/1/012037},
      url          = {https://repository.gsi.de/record/219843},
}