New methanol maser lines at 72 → 63A^-(86.6 GHz) and 72 → 63A^+(86.9 GHz) together with two candidate methanol maser lines at 72 → 81A-(80.99GHz) and 72→81A^+(111.29GHz) have been detected in W3(OH). W...New methanol maser lines at 72 → 63A^-(86.6 GHz) and 72 → 63A^+(86.9 GHz) together with two candidate methanol maser lines at 72 → 81A-(80.99GHz) and 72→81A^+(111.29GHz) have been detected in W3(OH). We use a pumping mechanism, i.e., methanol masers without population inversion, to explain the formation of weak methanol masers of 72 → 81A^+ and 72→ 81A^-. We explain well why the line-shape of the transition 72 → 81A^+ is not typical. A similar argument can be applied to the A-type level system 72A^-, 63A^- and 81A^-, as well as to the 72 → 81A^- 80.99 GHz masers.展开更多
基金Supported by the National Natural Science Foundation of China.
文摘New methanol maser lines at 72 → 63A^-(86.6 GHz) and 72 → 63A^+(86.9 GHz) together with two candidate methanol maser lines at 72 → 81A-(80.99GHz) and 72→81A^+(111.29GHz) have been detected in W3(OH). We use a pumping mechanism, i.e., methanol masers without population inversion, to explain the formation of weak methanol masers of 72 → 81A^+ and 72→ 81A^-. We explain well why the line-shape of the transition 72 → 81A^+ is not typical. A similar argument can be applied to the A-type level system 72A^-, 63A^- and 81A^-, as well as to the 72 → 81A^- 80.99 GHz masers.
