Nuclear electric dipole moment in the cluster model with a triton: Li7 and B11

Abstract: We calculate the electric dipole moment (EDM) of the nuclei 7 Li and 11 B in the cluster model with α ( 4 He) and triton ( 3 H) clusters as degrees of freedom. The 7 Li and 11 B nuclei are treated in the two-and three-body problem, respectively, using the Gaussian expansion method, assuming the one meson exchange P, CP-odd nuclear forces. We find that 7 Li and 11 B have larger sensitivity to the CP violation than the deuteron. It is also suggested that the EDMs of 7 Li and 11 B, together with those of 6 Li, 9 … Show more

“…However, a single measurement will be insufficient to identify the source of PVTV, only the availability of the measurement of EDM of various light nuclei such as 2 H, 3 H, and 3 He can impose constrains on all the LECs. Other light nuclear EDMs have been discussed in Yamanaka [208] and Yamanaka et al [247]. EDMs of heavy diamagnetic systems provide very important information as well, but such systems are too large for chiral EFT calculations.…”

Parity- and Time-Reversal-Violating Nuclear Forces

“…However, a single measurement will be insufficient to identify the source of PVTV, only the availability of the measurement of EDM of various light nuclei such as 2 H, 3 H, and 3 He can impose constrains on all the LECs. Other light nuclear EDMs have been discussed in Yamanaka [208] and Yamanaka et al [247]. EDMs of heavy diamagnetic systems provide very important information as well, but such systems are too large for chiral EFT calculations.…”

Parity- and Time-Reversal-Violating Nuclear Forces

“…The radial functions φ nlm (r) ≡ r l e −(r/rn) 2 Y lm ( r) and ψ N LM (R) ≡ R L e −(R/RN ) 2 Y LM ( R) are expanded using the geometric progression ρ n = ρ min a n−1 (n = 1 − n max , ρ = r, R), up to angular momenta l, L, Λ ≤ 2. This three-body calculation exactly follows the same procedure as the nuclear EDM calculations [20,24,21,25,26]. The final result for the irreducible nucleon EDM is obtained by calculating Eq.…”

“…1 (c)], however, was neglected. It is actually possible to calculate the irreducible EDM of the nucleon in the nonrelativistic quark model using the Gaussian expansion method [19], as was done for the nuclear EDM [20,21,22,23,24,25,26]. In this proceedings contribution, we report on the calculation of the irreducible contribution [27].…”

Quark model analysis of the Weinberg operator contribution to the nucleon EDM

“…1 (b)]. This contribution may actually be calculated in the nonrelativistic quark model using the Gaussian expansion method [23] by using the same techniques as the evaluation of the nuclear EDM [24][25][26][27][28][29][30]. The result is [20]…”

Weinberg Operator Contribution to the Hadronic CP Violation