Photodissociation of IBr molecule in the wavelength range 440–680 nm

Abstract: The photodissociation of IBr was investigated by solving the time-dependent Schrödinger equation including the rotational degree of freedom within the wavelength 440-680 nm. Representative samples of 2D slice images and the corresponding total kinetic energy distribution P(E) resulting from photolysis of IBr molecules at ten wavelengths in the range 440-680 nm were obtained. The total kinetic energy distribution P(E) and the P(E) distribution from the respective electronic excited states A, B, C and Y in the r… Show more

“…Therefore, observing the interaction process is also important. Sun et al investigated the process of the interaction between circularly polarized tightly focused laser pulse and electron [25], and found that by altering the interaction time of the electron-laser interaction, electron radiation with specific characteristics can be generated more precisely. There is a lack of research on the process of interaction between linearly polarized laser pulse and electron, therefore this paper will concentrate on studying linearly polarized laser pulse.…”

Study of the process of tightly focused linearly polarized laser pulses interacting with a stationary single electron

“…Therefore, observing the interaction process is also important. Sun et al investigated the process of the interaction between circularly polarized tightly focused laser pulse and electron [25], and found that by altering the interaction time of the electron-laser interaction, electron radiation with specific characteristics can be generated more precisely. There is a lack of research on the process of interaction between linearly polarized laser pulse and electron, therefore this paper will concentrate on studying linearly polarized laser pulse.…”

Study of the process of tightly focused linearly polarized laser pulses interacting with a stationary single electron