SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2321586000> ?p ?o ?g. }

Showing items 1 to 100 of ±132 with 100 items per page.

W2321586000 abstract "Topological phases with large Chern numbers have important implications. They were previously predicted to exist by considering fabricated long-range interactions or multilayered materials. Stimulated by recent wide interests in Floquet topological phases, here we propose a scheme to engineer large-Chern-number phases with ease by periodic quenching. Using a two-band system as an example, we theoretically show how a variety of topological phases with widely tunable Chern numbers can be generated by periodic quenching between two simple Hamiltonians that otherwise give low Chern numbers. The obtained large Chern numbers are explained through the emergence of multiple Dirac cones in the Floquet spectra. The transition lines between different topological phases in the two-band model are also explicitly found, thus establishing a class of easily solvable but very rich systems useful for further understandings and applications of topological phases in periodically driven systems." @default.
W2321586000 created "2016-06-24" @default.
W2321586000 creator A5004650337 @default.
W2321586000 creator A5024368613 @default.
W2321586000 creator A5025546353 @default.
W2321586000 date "2016-05-31" @default.
W2321586000 modified "2023-10-13" @default.
W2321586000 title "Towards large-Chern-number topological phases by periodic quenching" @default.
W2321586000 cites W1554804955 @default.
W2321586000 cites W1695384515 @default.
W2321586000 cites W1709190778 @default.
W2321586000 cites W1765957732 @default.
W2321586000 cites W1864865113 @default.
W2321586000 cites W1872132460 @default.
W2321586000 cites W1965937277 @default.
W2321586000 cites W1967764397 @default.
W2321586000 cites W1970188810 @default.
W2321586000 cites W1970995450 @default.
W2321586000 cites W1975543723 @default.
W2321586000 cites W1978426240 @default.
W2321586000 cites W1986044362 @default.
W2321586000 cites W1987693322 @default.
W2321586000 cites W1987750004 @default.
W2321586000 cites W1990265804 @default.
W2321586000 cites W1996350481 @default.
W2321586000 cites W2000191305 @default.
W2321586000 cites W2000890085 @default.
W2321586000 cites W2005527789 @default.
W2321586000 cites W2011403196 @default.
W2321586000 cites W2020332193 @default.
W2321586000 cites W2020581398 @default.
W2321586000 cites W2020595981 @default.
W2321586000 cites W2020885842 @default.
W2321586000 cites W2021604095 @default.
W2321586000 cites W2022138771 @default.
W2321586000 cites W2024563965 @default.
W2321586000 cites W2031953360 @default.
W2321586000 cites W2033963297 @default.
W2321586000 cites W2037807652 @default.
W2321586000 cites W2038772068 @default.
W2321586000 cites W2048987950 @default.
W2321586000 cites W2050077718 @default.
W2321586000 cites W2051934876 @default.
W2321586000 cites W2063271901 @default.
W2321586000 cites W2067485752 @default.
W2321586000 cites W2071340121 @default.
W2321586000 cites W2072152098 @default.
W2321586000 cites W2101893110 @default.
W2321586000 cites W2102030996 @default.
W2321586000 cites W2102074887 @default.
W2321586000 cites W2103981369 @default.
W2321586000 cites W2125051788 @default.
W2321586000 cites W2130093954 @default.
W2321586000 cites W2142723583 @default.
W2321586000 cites W2152240519 @default.
W2321586000 cites W2182711171 @default.
W2321586000 cites W2223404803 @default.
W2321586000 cites W2260456586 @default.
W2321586000 cites W2283122682 @default.
W2321586000 cites W2315336475 @default.
W2321586000 cites W2964187990 @default.
W2321586000 cites W2964212568 @default.
W2321586000 cites W2964269613 @default.
W2321586000 cites W3104111034 @default.
W2321586000 cites W326669990 @default.
W2321586000 cites W4205510932 @default.
W2321586000 doi "https://doi.org/10.1103/physrevb.93.184306" @default.
W2321586000 hasPublicationYear "2016" @default.
W2321586000 type Work @default.
W2321586000 sameAs 2321586000 @default.
W2321586000 citedByCount "63" @default.
W2321586000 countsByYear W23215860002016 @default.
W2321586000 countsByYear W23215860002017 @default.
W2321586000 countsByYear W23215860002018 @default.
W2321586000 countsByYear W23215860002019 @default.
W2321586000 countsByYear W23215860002020 @default.
W2321586000 countsByYear W23215860002021 @default.
W2321586000 countsByYear W23215860002022 @default.
W2321586000 countsByYear W23215860002023 @default.
W2321586000 crossrefType "journal-article" @default.
W2321586000 hasAuthorship W2321586000A5004650337 @default.
W2321586000 hasAuthorship W2321586000A5024368613 @default.
W2321586000 hasAuthorship W2321586000A5025546353 @default.
W2321586000 hasBestOaLocation W23215860002 @default.
W2321586000 hasConcept C114614502 @default.
W2321586000 hasConcept C121332964 @default.
W2321586000 hasConcept C121745418 @default.
W2321586000 hasConcept C151527765 @default.
W2321586000 hasConcept C158622935 @default.
W2321586000 hasConcept C184720557 @default.
W2321586000 hasConcept C202444582 @default.
W2321586000 hasConcept C33923547 @default.
W2321586000 hasConcept C45646460 @default.
W2321586000 hasConcept C55649039 @default.
W2321586000 hasConcept C62520636 @default.
W2321586000 hasConcept C84114770 @default.
W2321586000 hasConcept C91881484 @default.
W2321586000 hasConceptScore W2321586000C114614502 @default.
W2321586000 hasConceptScore W2321586000C121332964 @default.
W2321586000 hasConceptScore W2321586000C121745418 @default.