SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3033652958> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W3033652958 abstract "An applied field can modulate optical signals by resonance shifting via the Stark effect. The optical Stark effect (OSE) uses ultrafast light in the transparency region of a material to shift resonances with speeds limited by the pulse duration or system coherence. In this Letter we investigate the OSE in resonant optical harmonic generation (OHG) using the ground state exciton transition of WS2 with a variety of morphologies. Multidimensional pump-harmonic-probe measurements, in which the probe is second- or third-harmonic emission, reveal not only large Stark shifts that are commensurate with the large optical susceptibilities common to WS2 excitons, but also behaviors more complex than simple OSE treatments predict. We show how a new manifestation of the Stark Effect, brought forth by coherent photon exchange between the pump and OHG fundamental fields, can strongly enhance or suppress OHG." @default.
W3033652958 created "2020-06-12" @default.
W3033652958 creator A5015430753 @default.
W3033652958 creator A5046560539 @default.
W3033652958 creator A5070823484 @default.
W3033652958 creator A5077038811 @default.
W3033652958 creator A5081649702 @default.
W3033652958 creator A5090701716 @default.
W3033652958 date "2020-10-02" @default.
W3033652958 modified "2023-10-14" @default.
W3033652958 title "Quantum interference between the optical Stark effect and resonant harmonic generation in <mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML><mml:msub><mml:mi>WS</mml:mi><mml:mn>2</mml:mn></mml:msub></mml:math>" @default.
W3033652958 cites W1489642512 @default.
W3033652958 cites W1529807616 @default.
W3033652958 cites W1963811960 @default.
W3033652958 cites W1967300064 @default.
W3033652958 cites W1967335440 @default.
W3033652958 cites W1978303137 @default.
W3033652958 cites W1989186533 @default.
W3033652958 cites W2005215009 @default.
W3033652958 cites W2007417368 @default.
W3033652958 cites W2008712967 @default.
W3033652958 cites W2011301426 @default.
W3033652958 cites W2018958741 @default.
W3033652958 cites W2025694564 @default.
W3033652958 cites W2027340654 @default.
W3033652958 cites W2030457014 @default.
W3033652958 cites W2031378720 @default.
W3033652958 cites W2037091912 @default.
W3033652958 cites W2039334511 @default.
W3033652958 cites W2039775834 @default.
W3033652958 cites W2045093183 @default.
W3033652958 cites W2049605097 @default.
W3033652958 cites W2049736146 @default.
W3033652958 cites W2051200985 @default.
W3033652958 cites W2051702243 @default.
W3033652958 cites W2055842660 @default.
W3033652958 cites W2060657718 @default.
W3033652958 cites W2071554156 @default.
W3033652958 cites W2072266829 @default.
W3033652958 cites W2077182305 @default.
W3033652958 cites W2078804425 @default.
W3033652958 cites W2080559570 @default.
W3033652958 cites W2090099871 @default.
W3033652958 cites W2094730671 @default.
W3033652958 cites W2101496190 @default.
W3033652958 cites W2107432007 @default.
W3033652958 cites W2114676644 @default.
W3033652958 cites W2146292423 @default.
W3033652958 cites W2187302797 @default.
W3033652958 cites W2271673449 @default.
W3033652958 cites W2284369187 @default.
W3033652958 cites W2328584393 @default.
W3033652958 cites W2508060837 @default.
W3033652958 cites W2557062329 @default.
W3033652958 cites W2559046419 @default.
W3033652958 cites W2566743961 @default.
W3033652958 cites W2587399992 @default.
W3033652958 cites W2607062523 @default.
W3033652958 cites W2625929060 @default.
W3033652958 cites W2753061367 @default.
W3033652958 cites W2765917361 @default.
W3033652958 cites W2800428676 @default.
W3033652958 cites W2803759013 @default.
W3033652958 cites W2881828560 @default.
W3033652958 cites W2883146656 @default.
W3033652958 cites W2888079057 @default.
W3033652958 cites W2888698372 @default.
W3033652958 cites W2897351518 @default.
W3033652958 cites W2900471146 @default.
W3033652958 cites W2900910819 @default.
W3033652958 cites W2910674734 @default.
W3033652958 cites W2950441685 @default.
W3033652958 cites W2966661841 @default.
W3033652958 cites W2971759042 @default.
W3033652958 cites W2993551177 @default.
W3033652958 cites W2994406118 @default.
W3033652958 cites W3000696529 @default.
W3033652958 cites W3102118934 @default.
W3033652958 cites W3103145119 @default.
W3033652958 cites W3104635521 @default.
W3033652958 cites W4214503184 @default.
W3033652958 doi "https://doi.org/10.1103/physrevb.102.161401" @default.
W3033652958 hasPublicationYear "2020" @default.
W3033652958 type Work @default.
W3033652958 sameAs 3033652958 @default.
W3033652958 citedByCount "7" @default.
W3033652958 countsByYear W30336529582021 @default.
W3033652958 countsByYear W30336529582022 @default.
W3033652958 countsByYear W30336529582023 @default.
W3033652958 crossrefType "journal-article" @default.
W3033652958 hasAuthorship W3033652958A5015430753 @default.
W3033652958 hasAuthorship W3033652958A5046560539 @default.
W3033652958 hasAuthorship W3033652958A5070823484 @default.
W3033652958 hasAuthorship W3033652958A5077038811 @default.
W3033652958 hasAuthorship W3033652958A5081649702 @default.
W3033652958 hasAuthorship W3033652958A5090701716 @default.
W3033652958 hasBestOaLocation W30336529582 @default.
W3033652958 hasConcept C121332964 @default.
W3033652958 hasConcept C17729963 @default.
W3033652958 hasConcept C184779094 @default.