In this paper, optical quantum transition line shapes (QTLSs) and optical quantum transition line widths (QTLWs) are studied in relation to magnetic-field-dependent properties of the electron-deformation potential phonon interaction system. We considered two systems - one was subjected to the right and the other to the left circularly oscillating external fields. The main purpose of this work was to compare the QTLSs, which indicate the absorption power in the two oscillating external fields. The results indicate that the QTLSs of the right are larger than those of the left circularly oscillating external fields, whereas the opposite holds for the QTLWs. In this study, we found that the properties of QTLW and QTLS of GaN significantly increased with increasing temperature and magnetic field strength. The phonon emission transition was found to be the dominant scattering process.