Citation: M. Oppel et Gk. Paramonov, Optimal control of rotational motion of dissociation fragments by infraredlaser pulses: application to a three-dimensional model of HONO2 in the gasphase at temperatures below 1 K, CHEM P LETT, 339(3-4), 2001, pp. 243-254
Citation: M. Oppel et Gk. Paramonov, Infrared-laser-pulse control of bond- and state-selective excitation, dissociation and space quantization: application to a three-dimensional model of HONO2 in the ground electronic state, APP PHYS B, 71(3), 2000, pp. 319-329
Citation: M. Oppel et Gk. Paramonov, Infrared-laser control of vibrational state redistribution during molecular dissociation: The time-dependent flux method in model simulations for HONO2 in the excited electronic state, PHYS REV A, 60(5), 1999, pp. 3663-3666
Citation: Iv. Andrianov et Gk. Paramonov, Selective excitation of the vibrational-rotational states and dissociationof diatomic molecules by picosecond infrared laser pulses: Modeling for HFin the ground electronic state, PHYS REV A, 59(3), 1999, pp. 2134-2138
Citation: M. Oppel et Gk. Paramonov, Picosecond laser control of bond-selective dissociation and clockwise and anticlockwise rotation of the dissociation fragments: applications to a three-dimensional model of HONO2 in the ground electronic state, CHEM PHYS, 250(2), 1999, pp. 131-143
Citation: M. Oppel et Gk. Paramonov, Selective vibronic excitation and bond breaking by picosecond UV and IR laser pulses: application to a two-dimensional model of HONO2, CHEM P LETT, 313(1-2), 1999, pp. 332-340
Citation: Gk. Paramonov et P. Saalfrank, A new pump & dump strategy to control chemical reactivity at surfaces: application to photoisomerization of adsorbates, CHEM P LETT, 301(5-6), 1999, pp. 509-516