P. Brumer and M. Shapiro, Laser Control of Chemical Reactions, Scientific American 3, 34 (1995).  Home/Search   Document Not in Database   Summary   Related Articles   Check

....lasers allowed to speak of phase as a meaningful quantity, since for the first time interference experiments with light were made possible. Then way back in the 1986 Brumer and Shapiro realized that the concept of interference could have potential implications for the control of chemical reactions [1]. As a proof of principle they devised a simple experiment, where initial and final state were lower and upper level of an atom. Then they connected both states with two light induced pathways, a one and three photon transition. A relative phase change between the two lasers of di#erent color ....

....amplitude and phase at a specific temporal position. The temporal position could attain 128 values corresponding to the discrete position spaced by half the incident pulse temporal width [4] within the shaping window (see section 1. 1) Phase in the range of [0,2#] and amplitude in the range [0,1] were discretized in 20 steps. The algorithm converged for both optimizations of A and X within five generations. A double pulse of time separation 540 fs optimizes A and a time separation of 740 fs optimizes X, respectively [Fig. 3.11] The theoretical predictions assuming the model of Eq. 3.15) ....

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P. Brumer and M. Shapiro, Laser Control of Chemical Reactions, Scientific American 3, 34 (1995).

....from the interplay between control theory and Quantum Chemistry. A large amount of work in this direction has soon been accomplished by eminent chemists such as H. Rabitz and his collaborators (See the short review [19] on the optimal control of chemical reactions using laser beams, the works [4, 30, 32, 34, 36, 37, 38] and the references therein) but no mathematician seems to be involved in this scientific adventure. The present article has the modest goal to draw the attention of the community of experts at control theory to some relevant problems of Quantum Chemistry. # CERMICS, Ecole Nationale des Ponts et ....

.... into three categories : those of optimal control (works by Rabitz and collaborators, these are the ones we focus on) those of coherent control (use of more than one single laser in order to create constructive interferences and lead the molecule where desired, works by Brumer and collaborators [4]) and those of nonlinear control (use of very intense laser beams, works by Bandrauk and collaborators) 7 Time dependent phenomena are mostly approached through the determination of frequencies, and not as such. ESAIM: Proc. Vol. 8, 2000, 77 94 83 E(t) t=0 a few tenths of ps Figure 1: A ....

P. Brumer and M. Shapiro, Laser control of chemical reactions, Scientific American, March 1995, 34-39.

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P. Brumer and M. Shapiro, "Laser control of chemical reactions," Sci. Amer., vol. 272, no. 3, p. 34, 1995.

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