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W2011962392 endingPage "371" @default.
W2011962392 startingPage "359" @default.
W2011962392 abstract "We examine the effect of dissipation on the laser control of a process that transforms a state into a superposed state. We consider a two-dimensional double well of a single potential energy surface. In the context of reactivity, the objective of the control is the localization in a given well, for instance the creation of an enantiomeric form whereas for quantum gates, this control corresponds to one of the transformation of the Hadamard gate. The environment is either modelled by coupling few harmonic oscillators (up to five) to the system or by an effective interaction with an Ohmic bath. In the discrete case, dynamics is carried out exactly by using the coupled harmonic adiabatic channels. In the continuous case, Markovian and non-Markovian dynamics are considered. We compare two laser control strategies: the Stimulated Raman Adiabatic Passage (STIRAP) method and the optimal control theory. Analytical estimations for the control by adiabatic passage in a Markovian environment are also derived." @default.
W2011962392 created "2016-06-24" @default.
W2011962392 creator A5024498156 @default.
W2011962392 creator A5027928347 @default.
W2011962392 creator A5030294205 @default.
W2011962392 creator A5033734569 @default.
W2011962392 creator A5076660142 @default.
W2011962392 date "2007-08-01" @default.
W2011962392 modified "2023-10-15" @default.
W2011962392 title "Laser control in open molecular systems: STIRAP and Optimal Control" @default.
W2011962392 cites W1593366805 @default.
W2011962392 cites W1964552915 @default.
W2011962392 cites W1969651044 @default.
W2011962392 cites W1969938399 @default.
W2011962392 cites W1970776456 @default.
W2011962392 cites W1970879200 @default.
W2011962392 cites W1975745989 @default.
W2011962392 cites W1980217296 @default.
W2011962392 cites W1982249714 @default.
W2011962392 cites W1983466768 @default.
W2011962392 cites W1985500590 @default.
W2011962392 cites W1988498437 @default.
W2011962392 cites W1990885316 @default.
W2011962392 cites W1996799929 @default.
W2011962392 cites W1997493739 @default.
W2011962392 cites W2003842211 @default.
W2011962392 cites W2009439513 @default.
W2011962392 cites W2013685075 @default.
W2011962392 cites W2014363954 @default.
W2011962392 cites W2014505639 @default.
W2011962392 cites W2015683881 @default.
W2011962392 cites W2016104495 @default.
W2011962392 cites W2017696176 @default.
W2011962392 cites W2018630552 @default.
W2011962392 cites W2019491410 @default.
W2011962392 cites W2024514116 @default.
W2011962392 cites W2024700546 @default.
W2011962392 cites W2026972363 @default.
W2011962392 cites W2027779847 @default.
W2011962392 cites W2028906403 @default.
W2011962392 cites W2035735612 @default.
W2011962392 cites W2036771586 @default.
W2011962392 cites W2036795049 @default.
W2011962392 cites W2037032930 @default.
W2011962392 cites W2037180885 @default.
W2011962392 cites W2037452926 @default.
W2011962392 cites W2041194240 @default.
W2011962392 cites W2045357567 @default.
W2011962392 cites W2046437497 @default.
W2011962392 cites W2046604895 @default.
W2011962392 cites W2047920206 @default.
W2011962392 cites W2048375760 @default.
W2011962392 cites W2048384730 @default.
W2011962392 cites W2052282338 @default.
W2011962392 cites W2052295668 @default.
W2011962392 cites W2052338029 @default.
W2011962392 cites W2052505283 @default.
W2011962392 cites W2053256298 @default.
W2011962392 cites W2053571266 @default.
W2011962392 cites W2055065376 @default.
W2011962392 cites W2056787472 @default.
W2011962392 cites W2059605663 @default.
W2011962392 cites W2060784213 @default.
W2011962392 cites W2064151444 @default.
W2011962392 cites W2065479934 @default.
W2011962392 cites W2065926406 @default.
W2011962392 cites W2068128489 @default.
W2011962392 cites W2072637293 @default.
W2011962392 cites W2077009036 @default.
W2011962392 cites W2077168594 @default.
W2011962392 cites W2081407315 @default.
W2011962392 cites W2082641448 @default.
W2011962392 cites W2083590256 @default.
W2011962392 cites W2084728066 @default.
W2011962392 cites W2084864304 @default.
W2011962392 cites W2089848871 @default.
W2011962392 cites W2089977183 @default.
W2011962392 cites W2093824803 @default.
W2011962392 cites W2094065088 @default.
W2011962392 cites W2095150437 @default.
W2011962392 cites W2095457513 @default.
W2011962392 cites W2125993136 @default.
W2011962392 cites W2126916397 @default.
W2011962392 cites W2137222789 @default.
W2011962392 cites W2171456384 @default.
W2011962392 cites W2746718465 @default.
W2011962392 cites W4242518154 @default.
W2011962392 doi "https://doi.org/10.1016/j.jphotochem.2006.12.005" @default.
W2011962392 hasPublicationYear "2007" @default.
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