Magnetic moments of odd-A aluminum isotopes in covariant density functional theory

Jian Li(李剑),Wu-Ji Sun(孙无忌)

Table 2. The calculated energy $\left({E}_{{\rm{cal}}}\right)$, the quadrupole deformation (β₂), valence nucleon configuration, intrinsic magnetic moment (μ_intri.), and final magnetic moments (μ_tot.) of odd-A Al isotopes in CDFT approach, in comparison with the corresponding experimental spin, parity, energy and magnetic moment.

	CDFT					Exp.
Nuclei	β₂	E_tot(MeV)	Configuration	μ_intri.(μ_N)	μ_tot.(μ_N)	I^π	E_exp.	μ_exp.
²³Al	0.40	−167.89	$\pi 5/{2}^{+}[202]$	4.96	3.92	5/2⁺	−168.72	3.889(5)
²⁵Al	0.39	−198.01	$\pi 5/{2}^{+}[202]$	5.00	3.91	5/2⁺	−200.52	3.6455(12)
²⁷Al	0.18	−221.26	$\pi 5/{2}^{+}[202]$	5.10	3.96	5/2⁺	−224.95	3.6415069(7)
²⁹Al	0.27	−239.65	$\pi 5/{2}^{+}[202]$	5.12	3.96	5/2⁺	−242.10
³¹Al	0.17	−253.63	$\pi 5/{2}^{+}[202]$	5.16	3.96	5/2⁺	−255.00	3.830(5)
³³Al	0.06	−267.43	$\pi 5/{2}^{+}[202]$	5.22	3.99	5/2⁺	−264.65	4.088(5)