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W2080809442 abstract "We have calculated $(1+1+{1}^{ensuremath{'}})$-photon dissociation cross section of the NaH molecule from ${v}^{ensuremath{''}}=0$ level of the ground $Xphantom{rule{0.2em}{0ex}}^{1}ensuremath{Sigma}^{+}$ state to the repulsive ${B}^{1}ensuremath{Pi}$ state via the bound $Aphantom{rule{0.2em}{0ex}}^{1}ensuremath{Sigma}^{+}$ state by using three delayed ultrashort pulses. Two delayed $4phantom{rule{0.3em}{0ex}}text{femtosecond}$ pulses have been used for the first step transition to design interfering wave packets on the intermediate $Aphantom{rule{0.2em}{0ex}}^{1}ensuremath{Sigma}^{+}$ state and the third delayed ultrashort pulse (either $ensuremath{delta}$-function or $4phantom{rule{0.3em}{0ex}}text{femtosecond}$) excites these wave packets to the dissociating state. We have shown that control over dissociation dynamics can be achieved by controlling delay between three pulses, the pulse durations, and the carrier frequencies. We have considered two values of delay between the first two $4phantom{rule{0.3em}{0ex}}text{femtosecond}$ pulses for which it is possible to inhibit and enhance the deexcitation channel to the ground state and hence for these two delays the maximum of the cross section in the dissociation spectrum can be enhanced or diminished respectively for the $ensuremath{delta}$-function transition to the dissociating state by the third ultrashort pulse. The dissociation spectrum also depends on the delay of the third pulse. The dependence of the dissociation cross section on the delays of pulses and on the carrier frequency of the third pulse has been demonstrated for two step dissociating transition by three delayed $4phantom{rule{0.3em}{0ex}}text{femtosecond}$ pulses of Gaussian shape. It has been suggested that the oscillation of dissociation cross section with time delay of the third pulse can be realized as time dependent quantum gates and the nature of quantum gates can be controlled by choosing pulses of different shape, duration, and photon energy (or carrier frequency) as well as delay between the pulses. This aspect of realization and precise control of time dependent quantum gate in light molecules by using three ultrashort pulses $(4phantom{rule{0.3em}{0ex}}text{femtosecond})$ has not been explored before." @default.
W2080809442 created "2016-06-24" @default.
W2080809442 creator A5009647258 @default.
W2080809442 creator A5028628007 @default.
W2080809442 date "2005-08-29" @default.
W2080809442 modified "2023-09-25" @default.
W2080809442 title "Control of(1+1+1′)-photon dissociation dynamics in the NaH molecule using three delayed ultrashort pulses" @default.
W2080809442 cites W1532805396 @default.
W2080809442 cites W169945016 @default.
W2080809442 cites W1965707657 @default.
W2080809442 cites W1968035612 @default.
W2080809442 cites W1971370466 @default.
W2080809442 cites W1971688613 @default.
W2080809442 cites W1972166165 @default.
W2080809442 cites W1974812003 @default.
W2080809442 cites W1975417543 @default.
W2080809442 cites W1976605764 @default.
W2080809442 cites W1979723481 @default.
W2080809442 cites W1982718190 @default.
W2080809442 cites W1982899472 @default.
W2080809442 cites W1983883719 @default.
W2080809442 cites W1987448732 @default.
W2080809442 cites W1988629910 @default.
W2080809442 cites W1992711714 @default.
W2080809442 cites W1996385709 @default.
W2080809442 cites W1996531068 @default.
W2080809442 cites W1998527625 @default.
W2080809442 cites W2000911801 @default.
W2080809442 cites W2001093222 @default.
W2080809442 cites W2001293558 @default.
W2080809442 cites W2002075445 @default.
W2080809442 cites W2003245429 @default.
W2080809442 cites W2003771289 @default.
W2080809442 cites W2005535476 @default.
W2080809442 cites W2011406189 @default.
W2080809442 cites W2015563909 @default.
W2080809442 cites W2017919770 @default.
W2080809442 cites W2019701081 @default.
W2080809442 cites W2021689420 @default.
W2080809442 cites W2026008088 @default.
W2080809442 cites W2026461923 @default.
W2080809442 cites W2032269724 @default.
W2080809442 cites W2033336421 @default.
W2080809442 cites W2035917771 @default.
W2080809442 cites W2037544403 @default.
W2080809442 cites W2038443343 @default.
W2080809442 cites W2041609258 @default.
W2080809442 cites W2043059847 @default.
W2080809442 cites W2043244359 @default.
W2080809442 cites W2044645919 @default.
W2080809442 cites W2044825799 @default.
W2080809442 cites W2044961439 @default.
W2080809442 cites W2045850658 @default.
W2080809442 cites W2048553137 @default.
W2080809442 cites W2049991789 @default.
W2080809442 cites W2051653043 @default.
W2080809442 cites W2052823759 @default.
W2080809442 cites W2053507980 @default.
W2080809442 cites W2054388650 @default.
W2080809442 cites W2055741917 @default.
W2080809442 cites W2057260301 @default.
W2080809442 cites W2058175549 @default.
W2080809442 cites W2064631229 @default.
W2080809442 cites W2066847116 @default.
W2080809442 cites W2070441619 @default.
W2080809442 cites W2073282903 @default.
W2080809442 cites W2073444622 @default.
W2080809442 cites W2077652494 @default.
W2080809442 cites W2078470756 @default.
W2080809442 cites W2078880457 @default.
W2080809442 cites W2079226624 @default.
W2080809442 cites W2083494341 @default.
W2080809442 cites W2087051305 @default.
W2080809442 cites W2088222392 @default.
W2080809442 cites W2088561842 @default.
W2080809442 cites W2092082608 @default.
W2080809442 cites W2093458139 @default.
W2080809442 cites W2094761244 @default.
W2080809442 cites W2106487474 @default.
W2080809442 cites W2110417095 @default.
W2080809442 cites W2124405541 @default.
W2080809442 cites W2151256290 @default.
W2080809442 cites W2161833361 @default.
W2080809442 cites W4241110931 @default.
W2080809442 cites W4245770866 @default.
W2080809442 doi "https://doi.org/10.1103/physreva.72.023419" @default.
W2080809442 hasPublicationYear "2005" @default.
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