SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W3108443488> ?p ?o ?g. }

Showing items 1 to 100 of ±200 with 100 items per page.

W3108443488 abstract "Motivated by the recent experimental realization of twisted transition metal dichalcogenide bilayers, we study a simplified model driven by different forms of monochromatic light. As a concrete and representative example we use parameters that correspond to a twisted MoTe$_2$ homobilayer. First, we consider irradiation with circularly polarized light in free space and demonstrate that the corresponding Floquet Hamiltonian takes the same form as the static Hamiltonian, only with a constant overall shift in quasi-energy. This is in stark contrast to twisted bilayer graphene, where new terms are typically generated under an analagous drive. Longitudinal light, on the other hand, which can be generated from the transverse magnetic mode in a waveguide, has a much more dramatic effect--it renormalizes the tunneling strength between the layers, which effectively permits the tuning of the twist angle {em in-situ}. We find that, by varying the frequency and amplitude of the drive, one can induce a topological transition that cannot be obtained with the traditional form of the Floquet drive in free space. Furthermore, we find that strong drives can have a profound effect on the layer pseudospin texture of the twisted system, which coincides with multiple simultaneous band gap closings in the infinite-frequency limit. Surprisingly, these bandgap closings are not associated with topological transitions. For high but finite drive frequencies near $0.7$eV, the infinite-frequency band crossings become band gap minima of the order of $10^{-6}$ eV or smaller." @default.
W3108443488 created "2020-12-07" @default.
W3108443488 creator A5014979145 @default.
W3108443488 creator A5026002175 @default.
W3108443488 creator A5057538064 @default.
W3108443488 creator A5064737671 @default.
W3108443488 creator A5076275720 @default.
W3108443488 date "2021-01-28" @default.
W3108443488 modified "2023-10-15" @default.
W3108443488 title "Floquet engineering of topological transitions in a twisted transition metal dichalcogenide homobilayer" @default.
W3108443488 cites W1564809116 @default.
W3108443488 cites W1717027248 @default.
W3108443488 cites W1957416724 @default.
W3108443488 cites W1965937277 @default.
W3108443488 cites W1982318259 @default.
W3108443488 cites W1984239095 @default.
W3108443488 cites W1985284024 @default.
W3108443488 cites W1986306617 @default.
W3108443488 cites W1991395163 @default.
W3108443488 cites W2013384653 @default.
W3108443488 cites W2016367862 @default.
W3108443488 cites W2020581398 @default.
W3108443488 cites W2023727159 @default.
W3108443488 cites W2034932701 @default.
W3108443488 cites W2036600988 @default.
W3108443488 cites W2037708565 @default.
W3108443488 cites W2038253876 @default.
W3108443488 cites W2038772068 @default.
W3108443488 cites W2039763880 @default.
W3108443488 cites W2043452671 @default.
W3108443488 cites W2071340121 @default.
W3108443488 cites W2077593662 @default.
W3108443488 cites W2079440651 @default.
W3108443488 cites W2102030996 @default.
W3108443488 cites W2112578132 @default.
W3108443488 cites W2115786064 @default.
W3108443488 cites W2127169435 @default.
W3108443488 cites W2152440454 @default.
W3108443488 cites W2161635975 @default.
W3108443488 cites W2180849776 @default.
W3108443488 cites W2201156380 @default.
W3108443488 cites W2223404803 @default.
W3108443488 cites W2241286470 @default.
W3108443488 cites W2272806240 @default.
W3108443488 cites W2275437705 @default.
W3108443488 cites W2275620491 @default.
W3108443488 cites W2276182346 @default.
W3108443488 cites W2334832507 @default.
W3108443488 cites W2399897496 @default.
W3108443488 cites W2474645114 @default.
W3108443488 cites W2475628123 @default.
W3108443488 cites W2518522075 @default.
W3108443488 cites W2522100690 @default.
W3108443488 cites W2541590071 @default.
W3108443488 cites W2559359492 @default.
W3108443488 cites W2560755968 @default.
W3108443488 cites W2567619253 @default.
W3108443488 cites W2580176887 @default.
W3108443488 cites W2591990932 @default.
W3108443488 cites W2627001981 @default.
W3108443488 cites W2740339462 @default.
W3108443488 cites W2747292959 @default.
W3108443488 cites W2757980502 @default.
W3108443488 cites W2760579941 @default.
W3108443488 cites W2767683543 @default.
W3108443488 cites W2786263358 @default.
W3108443488 cites W2787584289 @default.
W3108443488 cites W2793369479 @default.
W3108443488 cites W2799068264 @default.
W3108443488 cites W2804324455 @default.
W3108443488 cites W2804628806 @default.
W3108443488 cites W2807862208 @default.
W3108443488 cites W2810345025 @default.
W3108443488 cites W2823732984 @default.
W3108443488 cites W2884798825 @default.
W3108443488 cites W2887412641 @default.
W3108443488 cites W2887975359 @default.
W3108443488 cites W2889374450 @default.
W3108443488 cites W2896725325 @default.
W3108443488 cites W2902560661 @default.
W3108443488 cites W2902827107 @default.
W3108443488 cites W2903962569 @default.
W3108443488 cites W2915165152 @default.
W3108443488 cites W2916821394 @default.
W3108443488 cites W2916906462 @default.
W3108443488 cites W2919682265 @default.
W3108443488 cites W2951334859 @default.
W3108443488 cites W2955013386 @default.
W3108443488 cites W2963168260 @default.
W3108443488 cites W2964187990 @default.
W3108443488 cites W2964269613 @default.
W3108443488 cites W2972428332 @default.
W3108443488 cites W2975696187 @default.
W3108443488 cites W2979094732 @default.
W3108443488 cites W2979424208 @default.
W3108443488 cites W2980606792 @default.
W3108443488 cites W2981329006 @default.
W3108443488 cites W2981361833 @default.
W3108443488 cites W3005945401 @default.
W3108443488 cites W3006027363 @default.