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/d¯) and (<sup>3</sup>He/<sup>3</sup>He¯). 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).
Akindinov, A., Alici, A., Antonioli, P., Arcelli, S., Bellini, F., Cara Romeo, G., et al. (2015). The highest precision proof of CPT invariance in the "nuclear binding masses". INTERNATIONAL JOURNAL OF MODERN PHYSICS A, 30(24), 1550170-1550175 [10.1142/S0217751X15501705].
The highest precision proof of CPT invariance in the "nuclear binding masses"
ALICI, ANDREA;ANTONIOLI, PIETRO;ARCELLI, SILVIA;BELLINI, FRANCESCA;CARNESECCHI, FRANCESCA;CIFARELLI, LUISA;COLOCCI, MANUEL;DE CARO, ANNALISA;CONTIN, ANDREA;GUERZONI, BARBARA;NANIA, ROBERTO;NOFERINI, FRANCESCO;PAGANO, PASQUALE;PESCI, ALESSANDRO;PINAZZA, OMBRETTA;PREGHENELLA, ROBERTO;SCIOLI, GILDA;ZAMPOLLI, CHIARA;ZICHICHI, ANTONINO
2015
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/d¯) 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).I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
