The molecular dissociation with a two-laser-pulse scheme is theoretically investigated for the hydrogen molecular ion(H2^+) and its isotopes(HD^+and HT^+). The terahertz pulse is used to steer the electron moti...The molecular dissociation with a two-laser-pulse scheme is theoretically investigated for the hydrogen molecular ion(H2^+) and its isotopes(HD^+and HT^+). The terahertz pulse is used to steer the electron motion after it has been excited by an ultrashort ultraviolet laser pulse and an unprecedented electron localization ratio can be achieved. With the coupled equations, the mass effect of the nuclei on the effective time of the electron localization control is discussed.展开更多
A semi-classical model is utilized to explain the dissociation control of the hydrogen molecular ion (H^-). By ana- lyzing the curve of the dissociation asymmetry parameter as a function of the time delay between th...A semi-classical model is utilized to explain the dissociation control of the hydrogen molecular ion (H^-). By ana- lyzing the curve of the dissociation asymmetry parameter as a function of the time delay between the exciting and steering pulses, we find that the dissociation control is dependent not only on the peak intensity and direction of the electric field of the steering pulse, but also on the peak intensity of the exciting pulse.展开更多
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11127901,60921004,11134010,11222439,11227902,and 61108012)the National Basic Research Program of China(Grant No.2011CB808103)
文摘The molecular dissociation with a two-laser-pulse scheme is theoretically investigated for the hydrogen molecular ion(H2^+) and its isotopes(HD^+and HT^+). The terahertz pulse is used to steer the electron motion after it has been excited by an ultrashort ultraviolet laser pulse and an unprecedented electron localization ratio can be achieved. With the coupled equations, the mass effect of the nuclei on the effective time of the electron localization control is discussed.
基金Project supported by the National Natural Science Foundation of China(Grant Nos.11127901,60921004,11134010,11222439,11227902,and 61108012)the National Key Basic Research Program of China(Grant No.2011CB808103)
文摘A semi-classical model is utilized to explain the dissociation control of the hydrogen molecular ion (H^-). By ana- lyzing the curve of the dissociation asymmetry parameter as a function of the time delay between the exciting and steering pulses, we find that the dissociation control is dependent not only on the peak intensity and direction of the electric field of the steering pulse, but also on the peak intensity of the exciting pulse.
