SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2018054553> ?p ?o ?g. }

Showing items 1 to 100 of ±113 with 100 items per page.

W2018054553 endingPage "2576" @default.
W2018054553 startingPage "2567" @default.
W2018054553 abstract "The influence of carrier correlation processes on the interaction and propagation of femtosecond optical pulses in an inverted semiconductor is theoretically investigated. Microscopically treated Coulomb scattering described from a first-principles theory, including both diagonal and nondiagonal dephasing, is seen to cause considerably different behavior on the dynamics than that modeled by employing a rate-equation approximation. Semiconductor intrinsic optical nonlinearities such as gain saturation and adiabatic following, controlled by microscopic dephasing and relaxation mechanisms, manifest dominantly in ultrafast transient effects that, experimentally, can appear as a typical Kerr-type (instantaneous) nonlinearity. It is shown that one cannot invoke an adiabatic elimination for the polarization equation on femtosecond time scales. The present self-consistent theory successfully explains recent experimental measurements without recourse to parametrized equations. The possible role of non-Markovian relaxation is also discussed." @default.
W2018054553 created "2016-06-24" @default.
W2018054553 creator A5034359052 @default.
W2018054553 date "1998-09-01" @default.
W2018054553 modified "2023-09-24" @default.
W2018054553 title "Carrier-carrier interaction and ultrashort pulse propagation in a highly excited semiconductor laser amplifier beyond the rate equation limit" @default.
W2018054553 cites W1971703790 @default.
W2018054553 cites W1978548002 @default.
W2018054553 cites W1979529212 @default.
W2018054553 cites W1987066378 @default.
W2018054553 cites W1990551692 @default.
W2018054553 cites W1995148342 @default.
W2018054553 cites W1996389195 @default.
W2018054553 cites W2003606891 @default.
W2018054553 cites W2003799101 @default.
W2018054553 cites W2007821156 @default.
W2018054553 cites W2012896405 @default.
W2018054553 cites W2013383265 @default.
W2018054553 cites W2021181904 @default.
W2018054553 cites W2028247482 @default.
W2018054553 cites W2028893987 @default.
W2018054553 cites W2033626305 @default.
W2018054553 cites W2034064244 @default.
W2018054553 cites W2035133808 @default.
W2018054553 cites W2041424787 @default.
W2018054553 cites W2041789227 @default.
W2018054553 cites W2043327409 @default.
W2018054553 cites W2044832168 @default.
W2018054553 cites W2050924222 @default.
W2018054553 cites W2053677546 @default.
W2018054553 cites W2057217761 @default.
W2018054553 cites W2057640682 @default.
W2018054553 cites W2058827836 @default.
W2018054553 cites W2060032752 @default.
W2018054553 cites W2061654789 @default.
W2018054553 cites W2065330459 @default.
W2018054553 cites W2067258492 @default.
W2018054553 cites W2069511791 @default.
W2018054553 cites W2070255185 @default.
W2018054553 cites W2073226987 @default.
W2018054553 cites W2073367423 @default.
W2018054553 cites W2076660927 @default.
W2018054553 cites W2081488905 @default.
W2018054553 cites W2089781174 @default.
W2018054553 cites W2092531068 @default.
W2018054553 cites W2092896292 @default.
W2018054553 cites W2094682078 @default.
W2018054553 cites W2096846432 @default.
W2018054553 cites W2100092827 @default.
W2018054553 cites W2103532901 @default.
W2018054553 cites W2106990794 @default.
W2018054553 cites W2138771610 @default.
W2018054553 cites W2554872596 @default.
W2018054553 cites W3169996584 @default.
W2018054553 cites W1983149224 @default.
W2018054553 doi "https://doi.org/10.1103/physreva.58.2567" @default.
W2018054553 hasPublicationYear "1998" @default.
W2018054553 type Work @default.
W2018054553 sameAs 2018054553 @default.
W2018054553 citedByCount "16" @default.
W2018054553 crossrefType "journal-article" @default.
W2018054553 hasAuthorship W2018054553A5034359052 @default.
W2018054553 hasConcept C108225325 @default.
W2018054553 hasConcept C109663097 @default.
W2018054553 hasConcept C111163200 @default.
W2018054553 hasConcept C121332964 @default.
W2018054553 hasConcept C148898269 @default.
W2018054553 hasConcept C15744967 @default.
W2018054553 hasConcept C167735695 @default.
W2018054553 hasConcept C178596936 @default.
W2018054553 hasConcept C26873012 @default.
W2018054553 hasConcept C2776029896 @default.
W2018054553 hasConcept C2781288168 @default.
W2018054553 hasConcept C49023278 @default.
W2018054553 hasConcept C520434653 @default.
W2018054553 hasConcept C62520636 @default.
W2018054553 hasConcept C77805123 @default.
W2018054553 hasConceptScore W2018054553C108225325 @default.
W2018054553 hasConceptScore W2018054553C109663097 @default.
W2018054553 hasConceptScore W2018054553C111163200 @default.
W2018054553 hasConceptScore W2018054553C121332964 @default.
W2018054553 hasConceptScore W2018054553C148898269 @default.
W2018054553 hasConceptScore W2018054553C15744967 @default.
W2018054553 hasConceptScore W2018054553C167735695 @default.
W2018054553 hasConceptScore W2018054553C178596936 @default.
W2018054553 hasConceptScore W2018054553C26873012 @default.
W2018054553 hasConceptScore W2018054553C2776029896 @default.
W2018054553 hasConceptScore W2018054553C2781288168 @default.
W2018054553 hasConceptScore W2018054553C49023278 @default.
W2018054553 hasConceptScore W2018054553C520434653 @default.
W2018054553 hasConceptScore W2018054553C62520636 @default.
W2018054553 hasConceptScore W2018054553C77805123 @default.
W2018054553 hasIssue "3" @default.
W2018054553 hasLocation W20180545531 @default.
W2018054553 hasOpenAccess W2018054553 @default.
W2018054553 hasPrimaryLocation W20180545531 @default.
W2018054553 hasRelatedWork W1545169268 @default.
W2018054553 hasRelatedWork W1980890399 @default.