SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3203342018> ?p ?o ?g. }

Showing items 1 to 100 of ±167 with 100 items per page.

W3203342018 endingPage "18209" @default.
W3203342018 startingPage "18200" @default.
W3203342018 abstract "Photocurrent (PC) measurements can reveal the relaxation dynamics of photoexcited hot carriers beyond the linear response of conventional transport experiments, a regime important for carrier multiplication. Here, we study the relaxation of carriers in graphene in the quantum Hall regime by accurately measuring the PC signal and modeling the data using optical Bloch equations. Our results lead to a unified understanding of the relaxation processes in graphene over different magnetic field strength regimes, which is governed by the interplay of Coulomb interactions and interactions with acoustic and optical phonons. Our data provide clear indications of a sizable carrier multiplication. Moreover, the oscillation pattern and the saturation behavior of PC are manifestations of not only the chiral transport properties of carriers in the quantum Hall regime but also the chirality change at the Dirac point, a characteristic feature of a relativistic quantum Hall effect." @default.
W3203342018 created "2021-10-11" @default.
W3203342018 creator A5006474578 @default.
W3203342018 creator A5008265631 @default.
W3203342018 creator A5013674722 @default.
W3203342018 creator A5014556674 @default.
W3203342018 creator A5019581016 @default.
W3203342018 creator A5020220204 @default.
W3203342018 creator A5026084729 @default.
W3203342018 creator A5041171592 @default.
W3203342018 creator A5041573207 @default.
W3203342018 creator A5045096283 @default.
W3203342018 creator A5048918781 @default.
W3203342018 creator A5056669926 @default.
W3203342018 creator A5061670215 @default.
W3203342018 creator A5063778789 @default.
W3203342018 creator A5088235876 @default.
W3203342018 date "2022-11-03" @default.
W3203342018 modified "2023-10-15" @default.
W3203342018 title "Chiral Transport of Hot Carriers in Graphene in the Quantum Hall Regime" @default.
W3203342018 cites W1896349058 @default.
W3203342018 cites W1964897173 @default.
W3203342018 cites W1968296477 @default.
W3203342018 cites W1985300622 @default.
W3203342018 cites W1992506968 @default.
W3203342018 cites W2013002114 @default.
W3203342018 cites W2016851459 @default.
W3203342018 cites W2020332193 @default.
W3203342018 cites W2030126423 @default.
W3203342018 cites W2031705180 @default.
W3203342018 cites W2033121022 @default.
W3203342018 cites W2039418304 @default.
W3203342018 cites W2040667857 @default.
W3203342018 cites W2045487092 @default.
W3203342018 cites W2047083187 @default.
W3203342018 cites W2049632862 @default.
W3203342018 cites W2057892740 @default.
W3203342018 cites W2083191451 @default.
W3203342018 cites W2091628914 @default.
W3203342018 cites W2094523515 @default.
W3203342018 cites W2102074887 @default.
W3203342018 cites W2105507800 @default.
W3203342018 cites W2116720553 @default.
W3203342018 cites W2126279743 @default.
W3203342018 cites W2129515233 @default.
W3203342018 cites W2136334331 @default.
W3203342018 cites W2142968271 @default.
W3203342018 cites W2190526989 @default.
W3203342018 cites W2215061879 @default.
W3203342018 cites W2242496204 @default.
W3203342018 cites W2249756686 @default.
W3203342018 cites W2277573220 @default.
W3203342018 cites W2298288839 @default.
W3203342018 cites W2314602741 @default.
W3203342018 cites W2332298812 @default.
W3203342018 cites W2350938626 @default.
W3203342018 cites W2409701484 @default.
W3203342018 cites W2469277697 @default.
W3203342018 cites W2523816484 @default.
W3203342018 cites W2781307618 @default.
W3203342018 cites W2787289150 @default.
W3203342018 cites W2884381403 @default.
W3203342018 cites W2963524931 @default.
W3203342018 cites W2966218286 @default.
W3203342018 cites W3048873431 @default.
W3203342018 cites W3101100626 @default.
W3203342018 cites W3102161793 @default.
W3203342018 cites W3102404836 @default.
W3203342018 cites W3104209521 @default.
W3203342018 cites W3111517196 @default.
W3203342018 cites W3143553441 @default.
W3203342018 cites W3153264277 @default.
W3203342018 cites W3153790369 @default.
W3203342018 cites W3161228976 @default.
W3203342018 cites W3162239196 @default.
W3203342018 cites W3163834235 @default.
W3203342018 cites W3164304713 @default.
W3203342018 cites W3170429212 @default.
W3203342018 cites W3195128884 @default.
W3203342018 cites W4362128601 @default.
W3203342018 doi "https://doi.org/10.1021/acsnano.2c05502" @default.
W3203342018 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36326218" @default.
W3203342018 hasPublicationYear "2022" @default.
W3203342018 type Work @default.
W3203342018 sameAs 3203342018 @default.
W3203342018 citedByCount "0" @default.
W3203342018 crossrefType "journal-article" @default.
W3203342018 hasAuthorship W3203342018A5006474578 @default.
W3203342018 hasAuthorship W3203342018A5008265631 @default.
W3203342018 hasAuthorship W3203342018A5013674722 @default.
W3203342018 hasAuthorship W3203342018A5014556674 @default.
W3203342018 hasAuthorship W3203342018A5019581016 @default.
W3203342018 hasAuthorship W3203342018A5020220204 @default.
W3203342018 hasAuthorship W3203342018A5026084729 @default.
W3203342018 hasAuthorship W3203342018A5041171592 @default.
W3203342018 hasAuthorship W3203342018A5041573207 @default.
W3203342018 hasAuthorship W3203342018A5045096283 @default.
W3203342018 hasAuthorship W3203342018A5048918781 @default.