SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2018791796> ?p ?o ?g. }

Showing items 1 to 100 of ±114 with 100 items per page.

W2018791796 endingPage "1755" @default.
W2018791796 startingPage "1742" @default.
W2018791796 abstract "Noise in conductors transmitting electrons coherently between attached reservoirs is calculated by following wave packets incident on the sample. The Pauli principle restricts the occupation of wave packets, spreading electrons more uniformly among the available packets, and thus reducing the noise below that of the classical shot-noise expression for totally uncorrelated electrons. After a brief review of the results for one-dimensional leads, we treat the case of the sample attached to two multichannel leads. A proper choice of basis for the wave packets permits this case to be reduced to that of a set of independent parallel one-channel samples. This picture is extended to the case of excess noise in multiterminal samples at zero temperature, leading to anticorrelated fluctuations between different leads. The anticorrelated fluctuations are analyzed, in particular detail for a Y-shaped three-lead sample. Our wave-packet approach is presented as a physically intuitive alternative to the existing approaches to mesoscopic noise, and leads to identical results." @default.
W2018791796 created "2016-06-24" @default.
W2018791796 creator A5028304144 @default.
W2018791796 creator A5077327686 @default.
W2018791796 date "1992-01-15" @default.
W2018791796 modified "2023-10-05" @default.
W2018791796 title "Wave-packet approach to noise in multichannel mesoscopic systems" @default.
W2018791796 cites W1964465593 @default.
W2018791796 cites W1966215148 @default.
W2018791796 cites W1970264776 @default.
W2018791796 cites W1976385458 @default.
W2018791796 cites W1987957470 @default.
W2018791796 cites W1998973869 @default.
W2018791796 cites W2002152145 @default.
W2018791796 cites W2013471149 @default.
W2018791796 cites W2014426329 @default.
W2018791796 cites W2022985780 @default.
W2018791796 cites W2027032410 @default.
W2018791796 cites W2027572134 @default.
W2018791796 cites W2033445880 @default.
W2018791796 cites W2038210368 @default.
W2018791796 cites W2051790769 @default.
W2018791796 cites W2061000251 @default.
W2018791796 cites W2061322497 @default.
W2018791796 cites W2071482725 @default.
W2018791796 cites W2072296880 @default.
W2018791796 cites W2080522061 @default.
W2018791796 cites W2090756297 @default.
W2018791796 cites W2091570753 @default.
W2018791796 cites W2092220680 @default.
W2018791796 cites W2095111535 @default.
W2018791796 cites W2107555930 @default.
W2018791796 cites W2110590541 @default.
W2018791796 cites W2131597329 @default.
W2018791796 cites W2144480799 @default.
W2018791796 cites W2167656187 @default.
W2018791796 cites W4252713891 @default.
W2018791796 doi "https://doi.org/10.1103/physrevb.45.1742" @default.
W2018791796 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/10001675" @default.
W2018791796 hasPublicationYear "1992" @default.
W2018791796 type Work @default.
W2018791796 sameAs 2018791796 @default.
W2018791796 citedByCount "373" @default.
W2018791796 countsByYear W20187917962012 @default.
W2018791796 countsByYear W20187917962013 @default.
W2018791796 countsByYear W20187917962014 @default.
W2018791796 countsByYear W20187917962015 @default.
W2018791796 countsByYear W20187917962016 @default.
W2018791796 countsByYear W20187917962017 @default.
W2018791796 countsByYear W20187917962018 @default.
W2018791796 countsByYear W20187917962019 @default.
W2018791796 countsByYear W20187917962020 @default.
W2018791796 countsByYear W20187917962021 @default.
W2018791796 countsByYear W20187917962022 @default.
W2018791796 countsByYear W20187917962023 @default.
W2018791796 crossrefType "journal-article" @default.
W2018791796 hasAuthorship W2018791796A5028304144 @default.
W2018791796 hasAuthorship W2018791796A5077327686 @default.
W2018791796 hasConcept C106978608 @default.
W2018791796 hasConcept C110340908 @default.
W2018791796 hasConcept C115961682 @default.
W2018791796 hasConcept C120665830 @default.
W2018791796 hasConcept C121332964 @default.
W2018791796 hasConcept C121864883 @default.
W2018791796 hasConcept C147120987 @default.
W2018791796 hasConcept C154945302 @default.
W2018791796 hasConcept C158379750 @default.
W2018791796 hasConcept C177731217 @default.
W2018791796 hasConcept C30475298 @default.
W2018791796 hasConcept C31258907 @default.
W2018791796 hasConcept C41008148 @default.
W2018791796 hasConcept C62520636 @default.
W2018791796 hasConcept C72659945 @default.
W2018791796 hasConcept C94915269 @default.
W2018791796 hasConcept C99498987 @default.
W2018791796 hasConceptScore W2018791796C106978608 @default.
W2018791796 hasConceptScore W2018791796C110340908 @default.
W2018791796 hasConceptScore W2018791796C115961682 @default.
W2018791796 hasConceptScore W2018791796C120665830 @default.
W2018791796 hasConceptScore W2018791796C121332964 @default.
W2018791796 hasConceptScore W2018791796C121864883 @default.
W2018791796 hasConceptScore W2018791796C147120987 @default.
W2018791796 hasConceptScore W2018791796C154945302 @default.
W2018791796 hasConceptScore W2018791796C158379750 @default.
W2018791796 hasConceptScore W2018791796C177731217 @default.
W2018791796 hasConceptScore W2018791796C30475298 @default.
W2018791796 hasConceptScore W2018791796C31258907 @default.
W2018791796 hasConceptScore W2018791796C41008148 @default.
W2018791796 hasConceptScore W2018791796C62520636 @default.
W2018791796 hasConceptScore W2018791796C72659945 @default.
W2018791796 hasConceptScore W2018791796C94915269 @default.
W2018791796 hasConceptScore W2018791796C99498987 @default.
W2018791796 hasIssue "4" @default.
W2018791796 hasLocation W20187917961 @default.
W2018791796 hasLocation W20187917962 @default.
W2018791796 hasOpenAccess W2018791796 @default.
W2018791796 hasPrimaryLocation W20187917961 @default.
W2018791796 hasRelatedWork W1643524611 @default.