Abstract
Complete, close to 100%, population transfer between the bound vibrational-rotational states of the HF molecule in the ground electronic state is demonstrated on a picosecond time scale by means of computer simulation within the Schr\"odinger wave-function formalism. The laser-induced dissociation from selectively prepared moderately high vibrational-rotational states is shown to be very efficient, with the dissociation probability approaching 100%. These processes are controlled by ${\mathrm{sin}}^{2}$-shaped linearly polarized picosecond laser pulses in the infrared domain.
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