\begin{document}$ \Lambda $\end{document} separation energy for \begin{document}$ \Lambda $\end{document} hypernuclei, denoted \begin{document}$ B_\Lambda $\end{document}, measured in 1967, 1968, and 1973 are recalibrated using the current best estimates of the mass of particles and nuclei. The recalibrated \begin{document}$ B_\Lambda $\end{document} are systematically larger (except in the case of \begin{document}$ ^6_\Lambda $\end{document}He) than the originally published values by about 100 keV. The effect of this level of recalibration is very important for light hypernuclei, especially for the hypertriton. The early \begin{document}$ B_\Lambda $\end{document} values measured in 1967, 1968, and 1973 are widely used in theoretical research, and the new results provide better constraints for the conclusions of such studies."> Recalibration of the binding energy of hypernuclei measured in emulsion experiments and its implications -
  • [1]

    M. Danysz and J. Pniewski, The London, Edinburgh, and Dublin Philosophical Magazine and Journal of Science,44: 348-350 (1953)

  • [2]

    R. Levi-Setti, W. E. Slater, and V. L. Telegdi, Il Nuovo Cimento Series 10,10: 68-90 (1958)

  • [3]

    E. M. Silverstein, Il Nuovo Cimento Series 10,10: 41-67 (1958)

  • [4]

    B. I. Abelev et al (STAR Collaboration), Science,328: 58-62 (2010)

  • [5]

    J. Adam et al (ALICE Collaboration), Phys. Lett. B,754: 360-372 (2016)

  • [6]

    E. Botta, T. Bressani, and G. Garbarino, Eur. Phys. J. A,48: 41 (2012)

  • [7]

    H. Müller and J. R. Shepard, J. Phys. G: Nucl. Part. Phys.,26: 1049-1064 (2000)

  • [8]

    D. Chatterjee and I. Vidaña, Eur. Phys. J. A,52: 29 (2016)

  • [9]

    A. Gal, E. V. Hungerford, and D. J. Millener, Rev. Mod. Phys.,88: 035004 (2016)

  • [10]

    D. Lonardoni, A. Lovato, S. Gandolfi et al, Phys. Rev. Lett.,114: 092301 (2015)

  • [11]

    L. Contessi, N. Barnea, and A. Gal, Phys. Rev. Lett.,121: 102502 (2018)

  • [12]

    S. R. Beane, E. Chang, S. D. Cohen et al, Phys. Rev. D,87: 034506 (2013)

  • [13]

    L. Adamczyk et al (STAR Collaboration), Phys. Rev. C,97: 054909 (2018)

  • [14]

    J. M. Lattimer and M. Prakash, Science,304: 536-542 (2004)

  • [15]

    M. Fortin, S. S. Avancini, C. Providência et al, Phys. Rev. C,95: 065803 (2017)

  • [16]

    Jinhui Chen, Declan Keane, Yu-Gang Ma et al, Phys. Rep.,760: 1-39 (2018)

  • [17]

    C. Mayeur, J. Sacton, P. Vilain et al, Il Nuovo Cimento A (1971-1996),43: 180-192 (1966)

  • [18]

    W. Gajewski, C. Mayeur, J. Sacton et al, Nucl. Phys. B,1: 105-113 (1967)

  • [19]

    G. Bohm, J. Klabuhn, U. Krecker et al, Nucl. Phys. B,4: 511-526 (1968)

  • [20]

    M. Juric, G. Bohm, J. Klabuhn et al, Nucl. Phys. B,52: 1-30 (1973)

  • [21]

    M. Tanabashi et al (Particle Data Group), Phys. Rev. D,98: 030001 (2018)

  • [22]

    W. J. Huang, G. Audi, M. Wang et al, Chin. Phys. C,41: 030002 (2017)

  • [23]

    M. Wang, G. Audi, F. G. Kondev et al, Chin. Phys. C,41: 030003 (2017)

  • [24]

    J. Adam et al (STAR Collaboration), arXiv: 1904.10520

  • [25]

    Peng Liu (for the STAR Collaboration), Nucl. Phys. A,982: 811-814 (2019)

  • [26]

    D. Lonardoni, F. Pederiva, and S. Gandolfi, Phys. Rev. C,89: 014314 (2014)

  • [27]

    D. Lonardoni and F. Pederiva, arXiv: 1711.07521

  • [28]

    G. Bohm, U. Krecker, C. Mayeur et al, Nuovo Cimento A (1965-1970),70: 384-390 (1970)

  • [29]

    A. H. Wapstra, Physica,21: 367-384 (1954)

  • [30]

    F. Everling, L. A. König, J. H. E. Mattauch et al, Nucl. Phys.,15: 342-355 (1960)

  • [31]

    F. Everling, L. A. König, J. H. E. Mattauch et al, Nucl. Phys.,18: 529-569 (1960)

  • [32]

    L. A. König, J. H. E. Mattauch, and A. H. Wapstra, Nucl. Phys.,31: 18-42 (1962)

  • [33]

    J. H. E. Mattauch, W. Thiele, and A. H. Wapstra, Nucl. Phys.,67: 1-31 (1965)

  • [34]

    A. H. Wapstra and N. B. Gove, At. Data Nucl. Data Tables,9: 267-301 (1971)

  • [35]

    A. H. Wapstra and K. Bos, At. Data Nucl. Data Tables,19: 177-214 (1977)

  • [36]

    D. H. Davis, Contemp. Phys.,27: 91-116 (1986)

  • [37]

    D. H. Davis, Nucl. Phys. A,547: 369c-378c (1992)

  • [38]

    D. H. Davis, Nucl. Phys. A,754: 3-13 (2005)

  • [39]

    P. Achenbach, S. Bleser, J. Pochodzalla et al, PoS,Hadron2017: 207 (2018)

  • [40]

    A. H. Rosenfeld, A. Barbaro-Galtieri, W. J. Podolsky et al, Rev. Mod. Phys.,39: 1-51 (1967)

  • [41]

    N. Barash-Schmidt et al (Particle Data Group), http://pdg.lbl.gov/rpp-archive/files/cm-p00040028.pdf, retrieved 5th August 2019

  • [42]

    F. Schulz et al (A1 Collaboration), Nucl. Phys. A,954: 149-160 (2016)

  • [43]

    T. Gogami et al (HKS (JLab E05-115) Collaboration), Phys. Rev. C,94: 021302 (2016)

  • [44]

    E. Botta, T. Bressani, and A. Feliciello, Nucl. Phys. A,960: 165-179 (2017)

  • [45]

    M. Agnello et al (FINUDA Collaboration), Phys. Lett. B,681: 139-146 (2009)

  • [46]

    G. M. Urciuoli et al (Jefferson Lab Hall A Collaboration), Phys. Rev. C,91: 034308 (2015)

  • [47]

    T. Gogami et al (HKS (JLab E05-115) Collaboration), Phys. Rev. C,93: 034314 (2016)

  • [48]

    L. Tang et al (HKS (JLab E05-115 and E01-011) Collaborations), Phys. Rev. C,90: 034320 (2014)

  • [49]

    M. Agnello et al, Phys. Lett. B,698: 219-225 (2011)

  • [50]

    K. P. Santhosh and C. Nithya, Eur. Phys. Plus J.,133: 343 (2018)

  • [51]

    J.-M. Richard, Q. Wang, and Q. Zhao, arXiv: 1604.04208v1

  • [52]

    S. Acharya et al (ALICE Collaboration), arXiv: 1907.06906

  • [53]

    A. Gal and H. Garcilazo, Phys. Lett. B,791: 48-53 (2019)

  • [54]

    Nuclear Data Services of International Atomic Energy Agency (IAEA), https://www-nds.iaea.org/, retrieved 5th August 2019

  • [55]

    E. Hiyama and T. Yamada, Prog. Part. Nucl. Phys.,63: 339-395 (2009)

  • [56]

    Private communication with Prof. D. J. Millener and Prof. D. H. Davis

  • [57]

    S. N Nakamura, T. Gogami, and L. Tang (for the JLab hypernuclear Collaboration), JPS Conf. Proc.,17: 011002 (2017)

  • [58]

    Peng Liu, Jin-Hui Chen, Yu-Gang Ma et al, Nucl. Sci. Tech.,28: 55 (2017)

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