SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W4320912987> ?p ?o ?g. }

Showing items 1 to 100 of ±136 with 100 items per page.

W4320912987 abstract "Transistors are key elements of electronic circuits as they enable, for example, the isolation or amplification of voltage signals. While conventional transistors are point-type (lumped-element) devices, it may be interesting to realize a distributed transistor-type optical response in a bulk material. Here, we show that low-symmetry two-dimensional metallic systems may be the ideal solution to implement such a distributed-transistor response. To this end, we use the semiclassical Boltzmann equation approach to characterize the optical conductivity of a two-dimensional material under a static electric bias. Similar to the nonlinear Hall effect, the linear electro-optic (EO) response depends on the Berry curvature dipole and can lead to nonreciprocal optical interactions. Most interestingly, our analysis uncovers a novel non-Hermitian linear EO effect that can lead to optical gain and to a distributed transistor response. We study a possible realization based on strained bilayer graphene. Our analysis reveals that the optical gain for incident light transmitted through the biased system depends on the light polarization, and can be quite large, especially for multilayer configurations." @default.
W4320912987 created "2023-02-16" @default.
W4320912987 creator A5009143362 @default.
W4320912987 creator A5048102679 @default.
W4320912987 creator A5059925128 @default.
W4320912987 creator A5091383346 @default.
W4320912987 date "2023-02-15" @default.
W4320912987 modified "2023-10-17" @default.
W4320912987 title "Engineering Transistorlike Optical Gain in Two-Dimensional Materials with Berry Curvature Dipoles" @default.
W4320912987 cites W1878730722 @default.
W4320912987 cites W1948123192 @default.
W4320912987 cites W1987750004 @default.
W4320912987 cites W2006105172 @default.
W4320912987 cites W2025108991 @default.
W4320912987 cites W2038997903 @default.
W4320912987 cites W2044745840 @default.
W4320912987 cites W2049632862 @default.
W4320912987 cites W2072758696 @default.
W4320912987 cites W2096991188 @default.
W4320912987 cites W2117610617 @default.
W4320912987 cites W2127169435 @default.
W4320912987 cites W2170539287 @default.
W4320912987 cites W2266174932 @default.
W4320912987 cites W2605946901 @default.
W4320912987 cites W2626632957 @default.
W4320912987 cites W2761797502 @default.
W4320912987 cites W2762413157 @default.
W4320912987 cites W2770326358 @default.
W4320912987 cites W2786947931 @default.
W4320912987 cites W2794901875 @default.
W4320912987 cites W2800201222 @default.
W4320912987 cites W2800368656 @default.
W4320912987 cites W2801294973 @default.
W4320912987 cites W2810335640 @default.
W4320912987 cites W2894482543 @default.
W4320912987 cites W2904861303 @default.
W4320912987 cites W2904994892 @default.
W4320912987 cites W2907819717 @default.
W4320912987 cites W2911345430 @default.
W4320912987 cites W2916933884 @default.
W4320912987 cites W2942250274 @default.
W4320912987 cites W2954776391 @default.
W4320912987 cites W2963314301 @default.
W4320912987 cites W2972242711 @default.
W4320912987 cites W2981844351 @default.
W4320912987 cites W2992928369 @default.
W4320912987 cites W2997645050 @default.
W4320912987 cites W2999550154 @default.
W4320912987 cites W3022773201 @default.
W4320912987 cites W3025234429 @default.
W4320912987 cites W3037102438 @default.
W4320912987 cites W3042799244 @default.
W4320912987 cites W3081675369 @default.
W4320912987 cites W3084000455 @default.
W4320912987 cites W3091522365 @default.
W4320912987 cites W3093650388 @default.
W4320912987 cites W3094562669 @default.
W4320912987 cites W3098245504 @default.
W4320912987 cites W3098330817 @default.
W4320912987 cites W3098859253 @default.
W4320912987 cites W3101163377 @default.
W4320912987 cites W3101836352 @default.
W4320912987 cites W3105517913 @default.
W4320912987 cites W3106404881 @default.
W4320912987 cites W3120959053 @default.
W4320912987 cites W3124651548 @default.
W4320912987 cites W3129223669 @default.
W4320912987 cites W3138193095 @default.
W4320912987 cites W3142612849 @default.
W4320912987 cites W3156656657 @default.
W4320912987 cites W3172155304 @default.
W4320912987 cites W3177046384 @default.
W4320912987 cites W3184787223 @default.
W4320912987 cites W3197487995 @default.
W4320912987 cites W4205155633 @default.
W4320912987 cites W4205537861 @default.
W4320912987 cites W4206057697 @default.
W4320912987 cites W4210738713 @default.
W4320912987 cites W4231187192 @default.
W4320912987 cites W898881852 @default.
W4320912987 doi "https://doi.org/10.1103/physrevlett.130.076901" @default.
W4320912987 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/36867823" @default.
W4320912987 hasPublicationYear "2023" @default.
W4320912987 type Work @default.
W4320912987 citedByCount "1" @default.
W4320912987 countsByYear W43209129872023 @default.
W4320912987 crossrefType "journal-article" @default.
W4320912987 hasAuthorship W4320912987A5009143362 @default.
W4320912987 hasAuthorship W4320912987A5048102679 @default.
W4320912987 hasAuthorship W4320912987A5059925128 @default.
W4320912987 hasAuthorship W4320912987A5091383346 @default.
W4320912987 hasBestOaLocation W43209129872 @default.
W4320912987 hasConcept C121332964 @default.
W4320912987 hasConcept C165801399 @default.
W4320912987 hasConcept C172385210 @default.
W4320912987 hasConcept C17269025 @default.
W4320912987 hasConcept C192562407 @default.
W4320912987 hasConcept C22448393 @default.
W4320912987 hasConcept C26873012 @default.
W4320912987 hasConcept C49040817 @default.