SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1996539981> ?p ?o ?g. }

Showing items 1 to 100 of ±150 with 100 items per page.

W1996539981 abstract "A photodissociation study is reported on the simply structured molecular ion ${mathrm{Ar}}_{2}^{+}$ that is, to good approximation a two-electronic state system (one bound, the other dissociative) under the conditions of this experiment. Nonlinear behavior is manifest in characteristically changed dissociation dynamics as a function of laser intensity in strong laser fields $(<~5ifmmodetimeselsetexttimesfi{}{10}^{12}$ ${mathrm{W}/mathrm{c}mathrm{m}}^{2}).$ Light-induced molecular potentials (molecular dressed states) provide a convenient description under such conditions and predict surprising effects regarding molecular dynamics in a light field. Much care has been taken to assure a meaningful quantitative comparison of experimental results with numerical simulations. This leads to the identification of dissociation by tunneling through a light-induced molecular potential well. ${mathrm{Ar}}_{2}^{+}$ is generated in a dc-discharge, accelerated, and formed into a mass selected molecular beam (7.5 keV). For some experiments, molecules are prepared in low vibrational states only, before they interact with a high intensity laser beam at a wavelength of 532 nm. The momentum distribution of photofragments is measured using an imaging technique for neutral fragments." @default.
W1996539981 created "2016-06-24" @default.
W1996539981 creator A5027139918 @default.
W1996539981 creator A5061166868 @default.
W1996539981 creator A5069679313 @default.
W1996539981 date "2000-07-13" @default.
W1996539981 modified "2023-09-27" @default.
W1996539981 title "Tunneling through light-induced molecular potentials inAr2+" @default.
W1996539981 cites W148336435 @default.
W1996539981 cites W1652264681 @default.
W1996539981 cites W1963857028 @default.
W1996539981 cites W1966591282 @default.
W1996539981 cites W1967057468 @default.
W1996539981 cites W1967205737 @default.
W1996539981 cites W1967607507 @default.
W1996539981 cites W1968969606 @default.
W1996539981 cites W1969012523 @default.
W1996539981 cites W1969637960 @default.
W1996539981 cites W1972415484 @default.
W1996539981 cites W1974646680 @default.
W1996539981 cites W1975734664 @default.
W1996539981 cites W1977114812 @default.
W1996539981 cites W1978395132 @default.
W1996539981 cites W1979136698 @default.
W1996539981 cites W1979409159 @default.
W1996539981 cites W1991344659 @default.
W1996539981 cites W1993078185 @default.
W1996539981 cites W1995006076 @default.
W1996539981 cites W1995010616 @default.
W1996539981 cites W1995209979 @default.
W1996539981 cites W1996006665 @default.
W1996539981 cites W1996851955 @default.
W1996539981 cites W1998286545 @default.
W1996539981 cites W2011370498 @default.
W1996539981 cites W2016284265 @default.
W1996539981 cites W2017522274 @default.
W1996539981 cites W2019282027 @default.
W1996539981 cites W2020847427 @default.
W1996539981 cites W2022399490 @default.
W1996539981 cites W2022542288 @default.
W1996539981 cites W2025856586 @default.
W1996539981 cites W2027836456 @default.
W1996539981 cites W2028271392 @default.
W1996539981 cites W2029803731 @default.
W1996539981 cites W2031569223 @default.
W1996539981 cites W2032301595 @default.
W1996539981 cites W2034276818 @default.
W1996539981 cites W2034708044 @default.
W1996539981 cites W2038017540 @default.
W1996539981 cites W2038382435 @default.
W1996539981 cites W2042135572 @default.
W1996539981 cites W2045180048 @default.
W1996539981 cites W2046246906 @default.
W1996539981 cites W2048019621 @default.
W1996539981 cites W2048210255 @default.
W1996539981 cites W2053613107 @default.
W1996539981 cites W2055818971 @default.
W1996539981 cites W2059945430 @default.
W1996539981 cites W2061358561 @default.
W1996539981 cites W2063584305 @default.
W1996539981 cites W2064579402 @default.
W1996539981 cites W2064945007 @default.
W1996539981 cites W2065852131 @default.
W1996539981 cites W2066163008 @default.
W1996539981 cites W2067973588 @default.
W1996539981 cites W2068312164 @default.
W1996539981 cites W2081660277 @default.
W1996539981 cites W2082482177 @default.
W1996539981 cites W2082905446 @default.
W1996539981 cites W2083162342 @default.
W1996539981 cites W2083616555 @default.
W1996539981 cites W2085145541 @default.
W1996539981 cites W2087965262 @default.
W1996539981 cites W2094362607 @default.
W1996539981 cites W2094425884 @default.
W1996539981 cites W2094490443 @default.
W1996539981 cites W2105180735 @default.
W1996539981 cites W2140566208 @default.
W1996539981 cites W2143472422 @default.
W1996539981 cites W2296620049 @default.
W1996539981 cites W2298369213 @default.
W1996539981 cites W2327178929 @default.
W1996539981 cites W2412337318 @default.
W1996539981 doi "https://doi.org/10.1103/physreva.62.023401" @default.
W1996539981 hasPublicationYear "2000" @default.
W1996539981 type Work @default.
W1996539981 sameAs 1996539981 @default.
W1996539981 citedByCount "20" @default.
W1996539981 countsByYear W19965399812012 @default.
W1996539981 countsByYear W19965399812013 @default.
W1996539981 countsByYear W19965399812014 @default.
W1996539981 crossrefType "journal-article" @default.
W1996539981 hasAuthorship W1996539981A5027139918 @default.
W1996539981 hasAuthorship W1996539981A5061166868 @default.
W1996539981 hasAuthorship W1996539981A5069679313 @default.
W1996539981 hasConcept C102931765 @default.
W1996539981 hasConcept C120398109 @default.
W1996539981 hasConcept C120665830 @default.
W1996539981 hasConcept C121332964 @default.
W1996539981 hasConcept C145148216 @default.