TITLE:
Modulation of the Excitation Characteristics of the Na Atom in Quantum Plasma via Spherical Confinement and Plasma Screening
AUTHORS:
Louis Gomis, Clement Diatta, Ibrahima Gueye Faye, Yandé Diouf, Mamadou Coulibaly, Rama Gomis, Attitchou Kossi
KEYWORDS:
Quantum Plasma, Atomic Sodium, Dipole Oscillator Strength, Generalized Oscillator Strength
JOURNAL NAME:
World Journal of Nuclear Science and Technology,
Vol.15 No.4,
October
31,
2025
ABSTRACT: The generalized oscillator strengths (GOS) as a function of squared momentum transfer are calculated within the Bethe-Born approximation for the dipole
3s→3
s
o
(
3p,4p
)
, quadrupole
3s→3
s
o
(
3d,4d
)
, and octupole
3s→3
s
o
(
4f,6f
)
transitions of the sodium atom under spherical confinement and quantum plasma conditions. These GOS values for multiple strengths (
ℓ=1,2,3
) are computed using initial and final state wave functions obtained from the work of Bahar by solving the wave equation, including the more general plasma model potential (MGPM). Their results are reported for both spherical confinement with fixed radius
R
and different plasma conditions defined by a set of plasma shielding parameters
(
a,b,D
)
, two of which are fixed while the other is varied. The analysis elucidates that the competition between both interactions, due to the combined effect of these parameters, leads to various behaviors of the GOS for each multipole strength considered in the present work. According to the present calculations, additional GOS maxima emerge in the observed GOS curves, revealing the influence of the parameter
b
. We also note that, apart from a second maximum that appears near a small
q
2
region for some cases of
D
and
a
, the positions of the GOS maxima for quadrupole (
3s→3
s
o
(
3d,4d
)
) and octupole (
3s→3
s
o
(
4f,6f
)
) transitions shift towards greater squared momentum transfer with the increment in
D
, while they move to smaller squared momentum transfer as the parameter
a
increases.