SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2883642942> ?p ?o ?g. }

Showing items 1 to 100 of ±156 with 100 items per page.

W2883642942 abstract "We develop a theory for strain control of Majorana zero energy modes and the Josephson effect in black phosphorus (BP) devices proximity coupled to a superconductor. Employing realistic values for the band parameters subject to strain, we show that the strain closes the intrinsic band gap of BP; however, the proximity effect from the superconductor reopens it and creates Dirac and Weyl nodes. Our results illustrate that Majorana zero energy flat bands connect the nodes within the band-inverted regime in which their associated density of states is localized at the edges of the device. In a ferromagnetically mediated Josephson configuration, the exchange field induces superharmonics in the supercurrent phase relation in addition to a ${ensuremath{varphi}}_{0}$ phase shift, corresponding to a spontaneous supercurrent, and strain offers an efficient tool to control these phenomena. We analyze the experimental implications of our findings and show that they can pave the way for creating a rich platform for studying two-dimensional Dirac and Weyl superconductivity." @default.
W2883642942 created "2018-08-03" @default.
W2883642942 creator A5021294042 @default.
W2883642942 creator A5039563012 @default.
W2883642942 creator A5087957266 @default.
W2883642942 date "2018-08-07" @default.
W2883642942 modified "2023-10-05" @default.
W2883642942 title "Strain-engineered Majorana zero energy modes and <mml:math xmlns:mml=http://www.w3.org/1998/Math/MathML><mml:msub><mml:mi>φ</mml:mi><mml:mn>0</mml:mn></mml:msub></mml:math> Josephson state in black phosphorus" @default.
W2883642942 cites W1513324133 @default.
W2883642942 cites W1542199404 @default.
W2883642942 cites W1716811706 @default.
W2883642942 cites W1830097031 @default.
W2883642942 cites W1965035307 @default.
W2883642942 cites W1973972788 @default.
W2883642942 cites W2006928820 @default.
W2883642942 cites W2010711237 @default.
W2883642942 cites W2011235975 @default.
W2883642942 cites W2020332193 @default.
W2883642942 cites W2023503324 @default.
W2883642942 cites W2025936561 @default.
W2883642942 cites W2033839403 @default.
W2883642942 cites W2037857431 @default.
W2883642942 cites W2039561186 @default.
W2883642942 cites W2041923345 @default.
W2883642942 cites W2055424520 @default.
W2883642942 cites W2059381051 @default.
W2883642942 cites W2087005733 @default.
W2883642942 cites W2089843538 @default.
W2883642942 cites W2102074887 @default.
W2883642942 cites W2106232533 @default.
W2883642942 cites W2106634544 @default.
W2883642942 cites W2152240519 @default.
W2883642942 cites W2168226651 @default.
W2883642942 cites W2175118067 @default.
W2883642942 cites W2268852870 @default.
W2883642942 cites W2270862178 @default.
W2883642942 cites W2283917190 @default.
W2883642942 cites W2293745760 @default.
W2883642942 cites W2296259435 @default.
W2883642942 cites W2342061666 @default.
W2883642942 cites W2411223965 @default.
W2883642942 cites W2492971338 @default.
W2883642942 cites W2504429711 @default.
W2883642942 cites W2516109291 @default.
W2883642942 cites W2557352381 @default.
W2883642942 cites W2561189402 @default.
W2883642942 cites W2562570333 @default.
W2883642942 cites W2566467992 @default.
W2883642942 cites W2567339655 @default.
W2883642942 cites W2589702776 @default.
W2883642942 cites W2592546418 @default.
W2883642942 cites W2598866462 @default.
W2883642942 cites W2601735235 @default.
W2883642942 cites W2607652792 @default.
W2883642942 cites W2610270542 @default.
W2883642942 cites W2615733625 @default.
W2883642942 cites W2624214548 @default.
W2883642942 cites W2672108316 @default.
W2883642942 cites W2688544862 @default.
W2883642942 cites W2735825581 @default.
W2883642942 cites W2738517856 @default.
W2883642942 cites W2761093700 @default.
W2883642942 cites W2762315747 @default.
W2883642942 cites W2762484852 @default.
W2883642942 cites W2768841082 @default.
W2883642942 cites W2772322195 @default.
W2883642942 cites W2775184661 @default.
W2883642942 cites W2784419398 @default.
W2883642942 cites W3100908157 @default.
W2883642942 cites W3101755458 @default.
W2883642942 cites W3101820764 @default.
W2883642942 cites W3103091868 @default.
W2883642942 cites W3103194938 @default.
W2883642942 cites W3103450160 @default.
W2883642942 cites W3104312126 @default.
W2883642942 cites W3105320508 @default.
W2883642942 cites W3105950151 @default.
W2883642942 cites W4295815427 @default.
W2883642942 cites W79001361 @default.
W2883642942 doi "https://doi.org/10.1103/physrevb.98.085414" @default.
W2883642942 hasPublicationYear "2018" @default.
W2883642942 type Work @default.
W2883642942 sameAs 2883642942 @default.
W2883642942 citedByCount "43" @default.
W2883642942 countsByYear W28836429422018 @default.
W2883642942 countsByYear W28836429422019 @default.
W2883642942 countsByYear W28836429422020 @default.
W2883642942 countsByYear W28836429422021 @default.
W2883642942 countsByYear W28836429422022 @default.
W2883642942 countsByYear W28836429422023 @default.
W2883642942 crossrefType "journal-article" @default.
W2883642942 hasAuthorship W2883642942A5021294042 @default.
W2883642942 hasAuthorship W2883642942A5039563012 @default.
W2883642942 hasAuthorship W2883642942A5087957266 @default.
W2883642942 hasBestOaLocation W28836429422 @default.
W2883642942 hasConcept C105702510 @default.
W2883642942 hasConcept C109214941 @default.
W2883642942 hasConcept C119599485 @default.
W2883642942 hasConcept C12038964 @default.
W2883642942 hasConcept C121332964 @default.