FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2020503923> ?p ?o ?g. }

• W2020503923 endingPage "11209" @default.
• W2020503923 startingPage "11202" @default.
• W2020503923 abstract "We investigate coherent correlation between nonadiabatic rotational excitation and angle-dependent ionization of NO in intense laser fields in the state-resolved manner. When neutral NO molecules are partly ionized in intense laser fields (I0 > 35 TW/cm2), a hole in the rotational wave packet of the remaining neutral NO is created because of the ionization rate depending on the alignment angle of the molecular axis with respect to the laser polarization direction. Rotational state distributions of NO are experimentally observed, and then the characteristic feature that the population at higher J levels is increased by the ionization can be identified. Numerical calculation for solving time-dependent rotational Schrödinger equations including the effect of the ionization is carried out. The numerical results suggest that NO molecules aligned perpendicular to the laser polarization direction are dominantly ionized at the peak intensity of I0 = 42 TW/cm2, where the multiphoton ionization is preferred rather than the tunneling ionization." @default.
• W2020503923 created "2016-06-24" @default.
• W2020503923 creator A5003974773 @default.
• W2020503923 creator A5044318097 @default.
• W2020503923 creator A5071708817 @default.
• W2020503923 creator A5086351004 @default.
• W2020503923 creator A5089863560 @default.
• W2020503923 date "2010-07-21" @default.
• W2020503923 modified "2023-10-11" @default.
• W2020503923 title "Coherent Correlation between Nonadiabatic Rotational Excitation and Angle-Dependent Ionization of NO in Intense Laser Fields" @default.
• W2020503923 cites W1553008450 @default.
• W2020503923 cites W1970650869 @default.
• W2020503923 cites W1977114812 @default.
• W2020503923 cites W1985429143 @default.
• W2020503923 cites W1987559078 @default.
• W2020503923 cites W1993397002 @default.
• W2020503923 cites W1995117133 @default.
• W2020503923 cites W1996604957 @default.
• W2020503923 cites W2009231959 @default.
• W2020503923 cites W2012693048 @default.
• W2020503923 cites W2017160696 @default.
• W2020503923 cites W2018013535 @default.
• W2020503923 cites W2020818552 @default.
• W2020503923 cites W2021819932 @default.
• W2020503923 cites W2023282733 @default.
• W2020503923 cites W2024771919 @default.
• W2020503923 cites W2024990222 @default.
• W2020503923 cites W2025730799 @default.
• W2020503923 cites W2029051019 @default.
• W2020503923 cites W2035188058 @default.
• W2020503923 cites W2037982698 @default.
• W2020503923 cites W2038736839 @default.
• W2020503923 cites W2041964358 @default.
• W2020503923 cites W2048435335 @default.
• W2020503923 cites W2051545281 @default.
• W2020503923 cites W2053914795 @default.
• W2020503923 cites W2057868856 @default.
• W2020503923 cites W2061382044 @default.
• W2020503923 cites W2063999118 @default.
• W2020503923 cites W2069364868 @default.
• W2020503923 cites W2069954875 @default.
• W2020503923 cites W2071149402 @default.
• W2020503923 cites W2075278295 @default.
• W2020503923 cites W2077136297 @default.
• W2020503923 cites W2080743366 @default.
• W2020503923 cites W2088449423 @default.
• W2020503923 cites W2093524637 @default.
• W2020503923 cites W2094086433 @default.
• W2020503923 cites W2124119658 @default.
• W2020503923 cites W2136319685 @default.
• W2020503923 cites W2144498759 @default.
• W2020503923 cites W2155038963 @default.
• W2020503923 cites W2412337318 @default.
• W2020503923 cites W433337231 @default.
• W2020503923 doi "https://doi.org/10.1021/jp102840t" @default.
• W2020503923 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/20961157" @default.
• W2020503923 hasPublicationYear "2010" @default.
• W2020503923 type Work @default.
• W2020503923 sameAs 2020503923 @default.
• W2020503923 citedByCount "16" @default.
• W2020503923 countsByYear W20205039232012 @default.
• W2020503923 countsByYear W20205039232013 @default.
• W2020503923 countsByYear W20205039232015 @default.
• W2020503923 countsByYear W20205039232016 @default.
• W2020503923 countsByYear W20205039232017 @default.
• W2020503923 countsByYear W20205039232018 @default.
• W2020503923 countsByYear W20205039232020 @default.
• W2020503923 countsByYear W20205039232021 @default.
• W2020503923 countsByYear W20205039232022 @default.
• W2020503923 countsByYear W20205039232023 @default.
• W2020503923 crossrefType "journal-article" @default.
• W2020503923 hasAuthorship W2020503923A5003974773 @default.
• W2020503923 hasAuthorship W2020503923A5044318097 @default.
• W2020503923 hasAuthorship W2020503923A5071708817 @default.
• W2020503923 hasAuthorship W2020503923A5086351004 @default.
• W2020503923 hasAuthorship W2020503923A5089863560 @default.
• W2020503923 hasConcept C120665830 @default.
• W2020503923 hasConcept C121332964 @default.
• W2020503923 hasConcept C144024400 @default.
• W2020503923 hasConcept C145148216 @default.
• W2020503923 hasConcept C147789679 @default.
• W2020503923 hasConcept C149923435 @default.
• W2020503923 hasConcept C178790620 @default.
• W2020503923 hasConcept C184779094 @default.
• W2020503923 hasConcept C185592680 @default.
• W2020503923 hasConcept C198291218 @default.
• W2020503923 hasConcept C205049153 @default.
• W2020503923 hasConcept C2908647359 @default.
• W2020503923 hasConcept C520434653 @default.
• W2020503923 hasConcept C62520636 @default.
• W2020503923 hasConcept C83581075 @default.
• W2020503923 hasConceptScore W2020503923C120665830 @default.
• W2020503923 hasConceptScore W2020503923C121332964 @default.
• W2020503923 hasConceptScore W2020503923C144024400 @default.
• W2020503923 hasConceptScore W2020503923C145148216 @default.
• W2020503923 hasConceptScore W2020503923C147789679 @default.
• W2020503923 hasConceptScore W2020503923C149923435 @default.
• W2020503923 hasConceptScore W2020503923C178790620 @default.

• next