Add to ORKGRecently, shell model wave functions for low-lying nuclear states in the range 29Si-40Ca with intermediate coupling and configurational mixing, have been calculated. In this paper these wave functions are used to obtain numerical values for magnetic dipole moments and magnetic dipole transition rates. Expressions are given for the matrix elements of the magnetic dipole operator in terms of single-particle matrix elements. The ground state magnetic moments and the widths for M1 transitions to the ground state are calculated (i) with single-particle g values; (ii) with effective g values) for the nuclei in the range 29Si-40Ca. The results are tabulated
We have made a thorough study of the low-energy behavior of the γ -ray strength function within the ...
Magnetic dipole transitions in the self-conjugate nucleus "3"2S up to an excitation energy...
The magnetic dipole and electric quadrupole moments of the ground states of 148 Pm and 210 Bi are ev...
Recently, shell model wave functions for low-lying nuclear states in the range 29Si-40Ca with interm...
Shell-model wave functions, incorporating particles in the 2s1/2 and 1d3/2 sub-shells and up to two ...
The magnetic dipole moments of212Bi and213Bi have been measured and the results are interpreted with...
In this article the recently measured magnetic-dipole moments of states in spherical nuclei are disc...
Recently a novel theory framework has been established for description of magnetic dipole (M1) trans...
Low energy enhancement of radiative strength functions has been deduced from experiments in several ...
A microscopic model analysis of the magnetic dipole (M1) properties of Pu-239 nucleus, which is a fi...
Magnetic dipole strength functions have been deduced from averages of a large number of M1 transitio...
Magnetic dipole moments of the ground- and excited-states below 600 keV in W-183,W-185, Re-185,Re-18...
ABSTRACT Background: Magnetic dipole (M1) excitation is the leading mode of nuclear excitation by th...
Nuclei near to the double shell closure at "1"3"2Sn are expected to have very pure si...
Magnetic dipole (M1) excitations constitute not only a fundamental mode of nucleonic transitions, bu...
We have made a thorough study of the low-energy behavior of the γ -ray strength function within the ...
Magnetic dipole transitions in the self-conjugate nucleus "3"2S up to an excitation energy...
The magnetic dipole and electric quadrupole moments of the ground states of 148 Pm and 210 Bi are ev...
Recently, shell model wave functions for low-lying nuclear states in the range 29Si-40Ca with interm...
Shell-model wave functions, incorporating particles in the 2s1/2 and 1d3/2 sub-shells and up to two ...
The magnetic dipole moments of212Bi and213Bi have been measured and the results are interpreted with...
In this article the recently measured magnetic-dipole moments of states in spherical nuclei are disc...
Recently a novel theory framework has been established for description of magnetic dipole (M1) trans...
Low energy enhancement of radiative strength functions has been deduced from experiments in several ...
A microscopic model analysis of the magnetic dipole (M1) properties of Pu-239 nucleus, which is a fi...
Magnetic dipole strength functions have been deduced from averages of a large number of M1 transitio...
Magnetic dipole moments of the ground- and excited-states below 600 keV in W-183,W-185, Re-185,Re-18...
ABSTRACT Background: Magnetic dipole (M1) excitation is the leading mode of nuclear excitation by th...
Nuclei near to the double shell closure at "1"3"2Sn are expected to have very pure si...
Magnetic dipole (M1) excitations constitute not only a fundamental mode of nucleonic transitions, bu...
We have made a thorough study of the low-energy behavior of the γ -ray strength function within the ...
Magnetic dipole transitions in the self-conjugate nucleus "3"2S up to an excitation energy...
The magnetic dipole and electric quadrupole moments of the ground states of 148 Pm and 210 Bi are ev...