TITLE:
Calculation of the Zeeman-Fine Energies and the Spectrum with Doppler-Shift Correction of Atomic Lithium
AUTHORS:
Laila Babsail, Leda Bousiakou, Salwa Alsaleh, Mesude Saglam
KEYWORDS:
Hydrogen-Like Atoms, Effective LandÉ G-Factor, Quantum Entanglement, Zeeman-Fine
Energies, Photonic Transitions, Quantum Flux Of Photon
JOURNAL NAME:
Journal of Modern Physics,
Vol.2 No.7,
July
12,
2011
ABSTRACT: We have calculated the Zeeman-fine energies of atomic Lithium (Li) by using the varying effective Landé g-factor method. We take the principle quantum number in the range; (2 ≤n ≤10 ). For this range we find 26 different energy values and 325 wavelengths some of which are the same. The Doppler shift is found to be Δλ=±0.004λ. The Doppler shift-corrected wavelengths are in perfect agreement with the observed (NIST) values for atomic Li.