SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3003588892> ?p ?o ?g. }

Showing items 1 to 100 of ±119 with 100 items per page.

W3003588892 abstract "In conventional theoretical methods for studying dissipative quantum transport, numerical complexity forces us to ignore important nonlocal effects, or to restrict attention to very small or one-dimensional systems. The authors present an efficient method, based on the Pauli master equation, that treats dissipative quantum transport while explicitly taking into account the nonlocal and inelastic nature of the scattering processes. Applying the method to a realistic semiconductor device reveals that, even at the nanoscale, electronic transport is predominantly dissipative, and demonstrates quantitatively that scattering due to interface roughness has a drastic impact on device performance." @default.
W3003588892 created "2020-02-07" @default.
W3003588892 creator A5005172535 @default.
W3003588892 creator A5018269073 @default.
W3003588892 creator A5038775065 @default.
W3003588892 date "2020-01-31" @default.
W3003588892 modified "2023-10-16" @default.
W3003588892 title "Master-Equation Study of Quantum Transport in Realistic Semiconductor Devices Including Electron-Phonon and Surface-Roughness Scattering" @default.
W3003588892 cites W1767151777 @default.
W3003588892 cites W1968038127 @default.
W3003588892 cites W1973268624 @default.
W3003588892 cites W1976246102 @default.
W3003588892 cites W1978179394 @default.
W3003588892 cites W1979076588 @default.
W3003588892 cites W1984626487 @default.
W3003588892 cites W1984839087 @default.
W3003588892 cites W1993095706 @default.
W3003588892 cites W2002571532 @default.
W3003588892 cites W2004253052 @default.
W3003588892 cites W2014127669 @default.
W3003588892 cites W2028877399 @default.
W3003588892 cites W2031131840 @default.
W3003588892 cites W2034427507 @default.
W3003588892 cites W2043365391 @default.
W3003588892 cites W2046042488 @default.
W3003588892 cites W2047961364 @default.
W3003588892 cites W2050247882 @default.
W3003588892 cites W2058122317 @default.
W3003588892 cites W2075448751 @default.
W3003588892 cites W2075555994 @default.
W3003588892 cites W2083628537 @default.
W3003588892 cites W2083803899 @default.
W3003588892 cites W2094484501 @default.
W3003588892 cites W2095308602 @default.
W3003588892 cites W2100205472 @default.
W3003588892 cites W2101296431 @default.
W3003588892 cites W2108519226 @default.
W3003588892 cites W2109522465 @default.
W3003588892 cites W2115631148 @default.
W3003588892 cites W2121788716 @default.
W3003588892 cites W2124814536 @default.
W3003588892 cites W2129883611 @default.
W3003588892 cites W2133800303 @default.
W3003588892 cites W2135818056 @default.
W3003588892 cites W2136868197 @default.
W3003588892 cites W2145546338 @default.
W3003588892 cites W2151201281 @default.
W3003588892 cites W2151728797 @default.
W3003588892 cites W2152057381 @default.
W3003588892 cites W2169799564 @default.
W3003588892 cites W2172005396 @default.
W3003588892 cites W2237031039 @default.
W3003588892 cites W2318005497 @default.
W3003588892 cites W2497266466 @default.
W3003588892 cites W2542028439 @default.
W3003588892 cites W2581025844 @default.
W3003588892 cites W2733668190 @default.
W3003588892 cites W2747101061 @default.
W3003588892 cites W2752389751 @default.
W3003588892 cites W2918310161 @default.
W3003588892 cites W2944119246 @default.
W3003588892 cites W3098575699 @default.
W3003588892 cites W3099407101 @default.
W3003588892 cites W3103483937 @default.
W3003588892 cites W3165898261 @default.
W3003588892 doi "https://doi.org/10.1103/physrevapplied.13.014067" @default.
W3003588892 hasPublicationYear "2020" @default.
W3003588892 type Work @default.
W3003588892 sameAs 3003588892 @default.
W3003588892 citedByCount "16" @default.
W3003588892 countsByYear W30035888922020 @default.
W3003588892 countsByYear W30035888922021 @default.
W3003588892 countsByYear W30035888922022 @default.
W3003588892 countsByYear W30035888922023 @default.
W3003588892 crossrefType "journal-article" @default.
W3003588892 hasAuthorship W3003588892A5005172535 @default.
W3003588892 hasAuthorship W3003588892A5018269073 @default.
W3003588892 hasAuthorship W3003588892A5038775065 @default.
W3003588892 hasConcept C108225325 @default.
W3003588892 hasConcept C110340908 @default.
W3003588892 hasConcept C121332964 @default.
W3003588892 hasConcept C121864883 @default.
W3003588892 hasConcept C128805008 @default.
W3003588892 hasConcept C191486275 @default.
W3003588892 hasConcept C26873012 @default.
W3003588892 hasConcept C62520636 @default.
W3003588892 hasConcept C74650414 @default.
W3003588892 hasConcept C84114770 @default.
W3003588892 hasConcept C99692599 @default.
W3003588892 hasConceptScore W3003588892C108225325 @default.
W3003588892 hasConceptScore W3003588892C110340908 @default.
W3003588892 hasConceptScore W3003588892C121332964 @default.
W3003588892 hasConceptScore W3003588892C121864883 @default.
W3003588892 hasConceptScore W3003588892C128805008 @default.
W3003588892 hasConceptScore W3003588892C191486275 @default.
W3003588892 hasConceptScore W3003588892C26873012 @default.
W3003588892 hasConceptScore W3003588892C62520636 @default.
W3003588892 hasConceptScore W3003588892C74650414 @default.
W3003588892 hasConceptScore W3003588892C84114770 @default.
W3003588892 hasConceptScore W3003588892C99692599 @default.