Beta-decay spectroscopy with laser-polarized nuclei
ORAL
Abstract
Exciting new opportunities for experiments with beta-decaying atomic nuclei have arisen recently at CERN ISOLDE with the new spectroscopy station called DeVITO [1]. The novelty of the setup stems from its integration with the laser-polarization beamline VITO [2] that induces spin orientation in radioactive ions or atoms. This unique combination enables spectroscopy measurements with spin-oriented nuclei that emit radiation anisotropically. The ability to exploit the directional distribution of radiation represents a significant advance over conventional beta-decay experiments [3,4]. This contribution presents the key features of the DeVITO and preliminary results from the commissioning experiment with neutron-rich potassium isotopes, including strong beta-delayed neutron emitters.
[1] M. Piersa-Siłkowska, M. Madurga, M. Kowalska, N. Azaryan et al., Tech. rep. CERN-INTC-2023-026, Geneva (2023).
[2] M. Kowalska et al., Phys. G: Nucl. Part. Phys. 44, 084005 (2017).
[3] H. Miyatake et al., Phys. Rev. C 67, 014306 (2003).
[4] Y. Hirayama et al., Physics Letters B 611, 239 (2005).
[1] M. Piersa-Siłkowska, M. Madurga, M. Kowalska, N. Azaryan et al., Tech. rep. CERN-INTC-2023-026, Geneva (2023).
[2] M. Kowalska et al., Phys. G: Nucl. Part. Phys. 44, 084005 (2017).
[3] H. Miyatake et al., Phys. Rev. C 67, 014306 (2003).
[4] Y. Hirayama et al., Physics Letters B 611, 239 (2005).
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Presenters
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Monika Piersa-Silkowska
University of Tennessee, Universidad Complutense de Madrid
Authors
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Zhengyu Xu
University of Tennessee
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Monika Piersa-Silkowska
University of Tennessee, Universidad Complutense de Madrid
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Robert K. Grzywacz
University of Tennessee
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Miguel Madurga
University of Tennessee
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Magdalena Kowalska
CERN, University of Geneva
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Agnieszka Korgul
University of Warsaw