SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2752110982> ?p ?o ?g. }

Showing items 1 to 100 of ±108 with 100 items per page.

W2752110982 abstract "We present a numerical investigation of the exciton energy and oscillator strength in type-II nanowire quantum dots. For a single quantum dot, the poor overlap of the electron part and the weakly confined hole part of the excitonic wave function leads to a low oscillator strength compared to type-I systems. To increase the oscillator strength, we propose a double quantum dot structure featuring a strongly localized exciton wave function and a corresponding fourfold relative enhancement of the oscillator strength, paving the way towards efficient optically controlled quantum gate applications in the type-II nanowire system. The simulations are performed using a computationally efficient configuration-interaction method suitable for handling the relatively large nanowire structures." @default.
W2752110982 created "2017-09-15" @default.
W2752110982 creator A5021294042 @default.
W2752110982 creator A5028150151 @default.
W2752110982 creator A5049753153 @default.
W2752110982 creator A5066429159 @default.
W2752110982 creator A5086723094 @default.
W2752110982 date "2017-09-07" @default.
W2752110982 modified "2023-09-23" @default.
W2752110982 title "Type-II quantum-dot-in-nanowire structures with large oscillator strength for optical quantum gate applications" @default.
W2752110982 cites W1637233379 @default.
W2752110982 cites W1978407113 @default.
W2752110982 cites W1985323402 @default.
W2752110982 cites W1990846476 @default.
W2752110982 cites W1992021213 @default.
W2752110982 cites W1992616661 @default.
W2752110982 cites W2000614973 @default.
W2752110982 cites W2014035914 @default.
W2752110982 cites W2019005681 @default.
W2752110982 cites W2020134657 @default.
W2752110982 cites W2021001014 @default.
W2752110982 cites W2021521435 @default.
W2752110982 cites W2026574356 @default.
W2752110982 cites W2034893767 @default.
W2752110982 cites W2037907379 @default.
W2752110982 cites W2044977327 @default.
W2752110982 cites W2047742110 @default.
W2752110982 cites W2054388650 @default.
W2752110982 cites W2055733003 @default.
W2752110982 cites W2057103655 @default.
W2752110982 cites W2066048381 @default.
W2752110982 cites W2066334717 @default.
W2752110982 cites W2072602901 @default.
W2752110982 cites W2075326316 @default.
W2752110982 cites W2075630371 @default.
W2752110982 cites W2077157569 @default.
W2752110982 cites W2077979689 @default.
W2752110982 cites W2078801345 @default.
W2752110982 cites W2093374037 @default.
W2752110982 cites W2094031756 @default.
W2752110982 cites W2109120455 @default.
W2752110982 cites W2119691274 @default.
W2752110982 cites W2269737360 @default.
W2752110982 cites W2611160913 @default.
W2752110982 cites W2996019064 @default.
W2752110982 cites W3098693868 @default.
W2752110982 doi "https://doi.org/10.1103/physrevb.96.125408" @default.
W2752110982 hasPublicationYear "2017" @default.
W2752110982 type Work @default.
W2752110982 sameAs 2752110982 @default.
W2752110982 citedByCount "13" @default.
W2752110982 countsByYear W27521109822019 @default.
W2752110982 countsByYear W27521109822020 @default.
W2752110982 countsByYear W27521109822021 @default.
W2752110982 countsByYear W27521109822022 @default.
W2752110982 countsByYear W27521109822023 @default.
W2752110982 crossrefType "journal-article" @default.
W2752110982 hasAuthorship W2752110982A5021294042 @default.
W2752110982 hasAuthorship W2752110982A5028150151 @default.
W2752110982 hasAuthorship W2752110982A5049753153 @default.
W2752110982 hasAuthorship W2752110982A5066429159 @default.
W2752110982 hasAuthorship W2752110982A5086723094 @default.
W2752110982 hasBestOaLocation W27521109822 @default.
W2752110982 hasConcept C113603373 @default.
W2752110982 hasConcept C121332964 @default.
W2752110982 hasConcept C124657808 @default.
W2752110982 hasConcept C151107866 @default.
W2752110982 hasConcept C17729963 @default.
W2752110982 hasConcept C26873012 @default.
W2752110982 hasConcept C4839761 @default.
W2752110982 hasConcept C49040817 @default.
W2752110982 hasConcept C62520636 @default.
W2752110982 hasConcept C74214498 @default.
W2752110982 hasConcept C84114770 @default.
W2752110982 hasConcept C99191460 @default.
W2752110982 hasConceptScore W2752110982C113603373 @default.
W2752110982 hasConceptScore W2752110982C121332964 @default.
W2752110982 hasConceptScore W2752110982C124657808 @default.
W2752110982 hasConceptScore W2752110982C151107866 @default.
W2752110982 hasConceptScore W2752110982C17729963 @default.
W2752110982 hasConceptScore W2752110982C26873012 @default.
W2752110982 hasConceptScore W2752110982C4839761 @default.
W2752110982 hasConceptScore W2752110982C49040817 @default.
W2752110982 hasConceptScore W2752110982C62520636 @default.
W2752110982 hasConceptScore W2752110982C74214498 @default.
W2752110982 hasConceptScore W2752110982C84114770 @default.
W2752110982 hasConceptScore W2752110982C99191460 @default.
W2752110982 hasIssue "12" @default.
W2752110982 hasLocation W27521109821 @default.
W2752110982 hasLocation W27521109822 @default.
W2752110982 hasLocation W27521109823 @default.
W2752110982 hasOpenAccess W2752110982 @default.
W2752110982 hasPrimaryLocation W27521109821 @default.
W2752110982 hasRelatedWork W1992021213 @default.
W2752110982 hasRelatedWork W2033554878 @default.
W2752110982 hasRelatedWork W2042984532 @default.
W2752110982 hasRelatedWork W2049933927 @default.
W2752110982 hasRelatedWork W2105752117 @default.
W2752110982 hasRelatedWork W2313809194 @default.
W2752110982 hasRelatedWork W2358359095 @default.