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Title The highest precision proof of CPT invariance in the “nuclear binding masses”
Author(s) Akindinov, A (Moscow, ITEP) ; Alici, A (INFN, Bologna ; Enrico Fermi Ctr., Rome) ; Antonioli, P (INFN, Bologna) ; Arcelli, S (INFN, Bologna ; Bologna U.) ; Bellini, F (INFN, Bologna ; Bologna U.) ; Cara Romeo, G (INFN, Bologna) ; Carnesecchi, F (INFN, Bologna ; Bologna U.) ; Chiarini, M (Enrico Fermi Ctr., Rome ; CERN) ; Cifarelli, L (INFN, Bologna ; Enrico Fermi Ctr., Rome ; Bologna U.) ; Colocci, M (INFN, Bologna ; Bologna U.) ; De Caro, A (Salerno U. ; INFN, Salerno) ; Contin, A (INFN, Bologna ; Bologna U.) ; De Gruttola, D (Enrico Fermi Ctr., Rome ; Salerno U. ; INFN, Salerno) ; De Pasquale, S (Salerno U. ; INFN, Salerno) ; Fusco Girard, M (Salerno U. ; INFN, Salerno) ; Guerzoni, B (INFN, Bologna ; Bologna U.) ; Hatzifotiadou, D (INFN, Bologna) ; Kim, D W (Gangneung-Wonju Natl. U.) ; Kim, J S (Gangneung-Wonju Natl. U.) ; Kiselev, S (Moscow, ITEP) ; Lee, S C (Gangneung-Wonju Natl. U.) ; Malkevich, D (Moscow, ITEP) ; Margotti, A (INFN, Bologna) ; Meninno, E (Salerno U. ; INFN, Salerno) ; Nania, R (INFN, Bologna) ; Nedosekin, A (Moscow, ITEP) ; Noferini, F (INFN, Bologna ; Enrico Fermi Ctr., Rome) ; Pagano, P (Salerno U. ; INFN, Salerno) ; Pesci, A (INFN, Bologna) ; Pinazza, O (INFN, Bologna) ; Preghenella, R (INFN, Bologna ; CERN) ; Scapparone, E (INFN, Bologna) ; Scioli, G (INFN, Bologna ; Bologna U.) ; Voloshin, K (Moscow, ITEP) ; Wenninger, H (CERN) ; Williams, M C S (INFN, Bologna ; CERN) ; Zampolli, C (INFN, Bologna) ; Zichichi, A (INFN, Bologna ; Bologna U.)
Publication 2015
Number of pages 6
In: Int. J. Mod. Phys. A 30 (2015) 1550170
DOI 10.1142/S0217751X15501705
Subject category Nuclear Physics - Theory ; Nuclear Physics - Experiment
Abstract The validity of CPT invariance in the field of “nuclear binding masses” has been studied for nuclei (antinuclei) with two and three nucleons (antinucleons): (d∕d̄) and (3He∕3He¯). It is discussed the importance of investigating the transition from the world where gluons and quarks carry their QCD colors (QGCW) to the world where gluons and quarks exist only with zero-QCD-color (QGZCW).
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