SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2323766904> ?p ?o ?g. }

Showing items 1 to 100 of ±123 with 100 items per page.

W2323766904 abstract "We exploit the relationship between high harmonic generation (HHG) and the molecular photorecombination dipole to extract the molecular-frame differential photoionization cross section (PICS) in the extreme ultraviolet (XUV) for molecular nitrogen. A shape resonance and a Cooper-type minimum are reflected in the pump-probe time delay measurements of different harmonic orders, where high-order rotational revivals are observed in N${}_{2}$. We observe the energy- and angle-dependent Cooper minimum and shape resonance directly in the laboratory-frame HHG yield by achieving a high degree of alignment, $ensuremath{langle}{mathrm{cos}}^{2}ensuremath{theta}ensuremath{rangle}ensuremath{ge}0.8$. The interplay between PICS and rotational revivals is confirmed by simulations using the quantitative rescattering theory. Our method of extracting molecular-frame structural information points the way to similar measurements in more complex molecules." @default.
W2323766904 created "2016-06-24" @default.
W2323766904 creator A5020222501 @default.
W2323766904 creator A5040106285 @default.
W2323766904 creator A5040121746 @default.
W2323766904 creator A5051372224 @default.
W2323766904 creator A5065285421 @default.
W2323766904 creator A5078185367 @default.
W2323766904 creator A5079658445 @default.
W2323766904 creator A5089398902 @default.
W2323766904 date "2013-10-17" @default.
W2323766904 modified "2023-09-27" @default.
W2323766904 title "Measuring the angle-dependent photoionization cross section of nitrogen using high-harmonic generation" @default.
W2323766904 cites W1970274553 @default.
W2323766904 cites W1970685858 @default.
W2323766904 cites W1986078508 @default.
W2323766904 cites W1986558472 @default.
W2323766904 cites W1995117133 @default.
W2323766904 cites W1996604957 @default.
W2323766904 cites W2000597670 @default.
W2323766904 cites W2009397797 @default.
W2323766904 cites W2010001139 @default.
W2323766904 cites W2019429134 @default.
W2323766904 cites W2019688022 @default.
W2323766904 cites W2020818552 @default.
W2323766904 cites W2026586824 @default.
W2323766904 cites W2029939614 @default.
W2323766904 cites W2033541715 @default.
W2323766904 cites W2034186996 @default.
W2323766904 cites W2035188058 @default.
W2323766904 cites W2038736839 @default.
W2323766904 cites W2044735268 @default.
W2323766904 cites W2045565918 @default.
W2323766904 cites W2051940907 @default.
W2323766904 cites W2052603663 @default.
W2323766904 cites W2055635149 @default.
W2323766904 cites W2059024631 @default.
W2323766904 cites W2064917327 @default.
W2323766904 cites W2064999346 @default.
W2323766904 cites W2071529782 @default.
W2323766904 cites W2083858028 @default.
W2323766904 cites W2086929653 @default.
W2323766904 cites W2094177521 @default.
W2323766904 cites W2146343739 @default.
W2323766904 cites W2316369447 @default.
W2323766904 cites W2318516871 @default.
W2323766904 cites W2326058707 @default.
W2323766904 cites W3087789793 @default.
W2323766904 doi "https://doi.org/10.1103/physreva.88.043421" @default.
W2323766904 hasPublicationYear "2013" @default.
W2323766904 type Work @default.
W2323766904 sameAs 2323766904 @default.
W2323766904 citedByCount "34" @default.
W2323766904 countsByYear W23237669042014 @default.
W2323766904 countsByYear W23237669042015 @default.
W2323766904 countsByYear W23237669042016 @default.
W2323766904 countsByYear W23237669042017 @default.
W2323766904 countsByYear W23237669042018 @default.
W2323766904 countsByYear W23237669042019 @default.
W2323766904 countsByYear W23237669042020 @default.
W2323766904 countsByYear W23237669042021 @default.
W2323766904 countsByYear W23237669042022 @default.
W2323766904 countsByYear W23237669042023 @default.
W2323766904 crossrefType "journal-article" @default.
W2323766904 hasAuthorship W2323766904A5020222501 @default.
W2323766904 hasAuthorship W2323766904A5040106285 @default.
W2323766904 hasAuthorship W2323766904A5040121746 @default.
W2323766904 hasAuthorship W2323766904A5051372224 @default.
W2323766904 hasAuthorship W2323766904A5065285421 @default.
W2323766904 hasAuthorship W2323766904A5078185367 @default.
W2323766904 hasAuthorship W2323766904A5079658445 @default.
W2323766904 hasAuthorship W2323766904A5089398902 @default.
W2323766904 hasConcept C120665830 @default.
W2323766904 hasConcept C121332964 @default.
W2323766904 hasConcept C127934551 @default.
W2323766904 hasConcept C139210041 @default.
W2323766904 hasConcept C145148216 @default.
W2323766904 hasConcept C146024833 @default.
W2323766904 hasConcept C158749347 @default.
W2323766904 hasConcept C173523689 @default.
W2323766904 hasConcept C184779094 @default.
W2323766904 hasConcept C198291218 @default.
W2323766904 hasConcept C2780467327 @default.
W2323766904 hasConcept C32909587 @default.
W2323766904 hasConcept C520434653 @default.
W2323766904 hasConcept C52234038 @default.
W2323766904 hasConcept C62520636 @default.
W2323766904 hasConcept C64672749 @default.
W2323766904 hasConceptScore W2323766904C120665830 @default.
W2323766904 hasConceptScore W2323766904C121332964 @default.
W2323766904 hasConceptScore W2323766904C127934551 @default.
W2323766904 hasConceptScore W2323766904C139210041 @default.
W2323766904 hasConceptScore W2323766904C145148216 @default.
W2323766904 hasConceptScore W2323766904C146024833 @default.
W2323766904 hasConceptScore W2323766904C158749347 @default.
W2323766904 hasConceptScore W2323766904C173523689 @default.
W2323766904 hasConceptScore W2323766904C184779094 @default.
W2323766904 hasConceptScore W2323766904C198291218 @default.
W2323766904 hasConceptScore W2323766904C2780467327 @default.
W2323766904 hasConceptScore W2323766904C32909587 @default.