SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2897787444> ?p ?o ?g. }

Showing items 1 to 100 of ±135 with 100 items per page.

W2897787444 abstract "In magnetism, Brillouin light scattering spectroscopy (BLS) is the most popular method for probing the Dzyaloshinskii-Moriya interaction (DMI) in ferromagnetic thin films, but for a very narrow magnetic strip, BLS is limited by the spatial resolution of the light. This work proposes a magnonic counterpart to BLS to overcome that technical difficulty. A thorough study of spin-wave propagation and interaction in a thin film reveals interesting DMI phenomena, such as noncollinearity of wave vector and group velocity, negative refraction, and stimulated three-magnon splitting. This extension of our ability to probe the DMI is expected to facilitate the design of chiral magnonic devices." @default.
W2897787444 created "2018-10-26" @default.
W2897787444 creator A5011798327 @default.
W2897787444 creator A5020876933 @default.
W2897787444 creator A5034558199 @default.
W2897787444 creator A5071591688 @default.
W2897787444 date "2018-11-07" @default.
W2897787444 modified "2023-10-13" @default.
W2897787444 title "Probing the Dzyaloshinskii-Moriya Interaction via the Propagation of Spin Waves in Ferromagnetic Thin Films" @default.
W2897787444 cites W1513169615 @default.
W2897787444 cites W1578600557 @default.
W2897787444 cites W1604692062 @default.
W2897787444 cites W1825919677 @default.
W2897787444 cites W1909278015 @default.
W2897787444 cites W1967721229 @default.
W2897787444 cites W1972013365 @default.
W2897787444 cites W1972081918 @default.
W2897787444 cites W1974144311 @default.
W2897787444 cites W1975274923 @default.
W2897787444 cites W1982240419 @default.
W2897787444 cites W2007047805 @default.
W2897787444 cites W2010854341 @default.
W2897787444 cites W2011891857 @default.
W2897787444 cites W2021111821 @default.
W2897787444 cites W2026614591 @default.
W2897787444 cites W2031929867 @default.
W2897787444 cites W2034258734 @default.
W2897787444 cites W2042082875 @default.
W2897787444 cites W2054342985 @default.
W2897787444 cites W2054523941 @default.
W2897787444 cites W2060511679 @default.
W2897787444 cites W2064335889 @default.
W2897787444 cites W2088081187 @default.
W2897787444 cites W2091577074 @default.
W2897787444 cites W2130871828 @default.
W2897787444 cites W2153466186 @default.
W2897787444 cites W2168406111 @default.
W2897787444 cites W2216412588 @default.
W2897787444 cites W2234325859 @default.
W2897787444 cites W2287768642 @default.
W2897787444 cites W2297316345 @default.
W2897787444 cites W2300867125 @default.
W2897787444 cites W2337855912 @default.
W2897787444 cites W2412669504 @default.
W2897787444 cites W2467423133 @default.
W2897787444 cites W2528808881 @default.
W2897787444 cites W2554739014 @default.
W2897787444 cites W2563127334 @default.
W2897787444 cites W2604245966 @default.
W2897787444 cites W2733101739 @default.
W2897787444 cites W2735806552 @default.
W2897787444 cites W2751956986 @default.
W2897787444 cites W2768150540 @default.
W2897787444 cites W2768703173 @default.
W2897787444 cites W2789483942 @default.
W2897787444 cites W2805843712 @default.
W2897787444 cites W2964079135 @default.
W2897787444 cites W3104826957 @default.
W2897787444 cites W3106095120 @default.
W2897787444 cites W326744329 @default.
W2897787444 doi "https://doi.org/10.1103/physrevapplied.10.054018" @default.
W2897787444 hasPublicationYear "2018" @default.
W2897787444 type Work @default.
W2897787444 sameAs 2897787444 @default.
W2897787444 citedByCount "19" @default.
W2897787444 countsByYear W28977874442019 @default.
W2897787444 countsByYear W28977874442020 @default.
W2897787444 countsByYear W28977874442021 @default.
W2897787444 countsByYear W28977874442022 @default.
W2897787444 countsByYear W28977874442023 @default.
W2897787444 crossrefType "journal-article" @default.
W2897787444 hasAuthorship W2897787444A5011798327 @default.
W2897787444 hasAuthorship W2897787444A5020876933 @default.
W2897787444 hasAuthorship W2897787444A5034558199 @default.
W2897787444 hasAuthorship W2897787444A5071591688 @default.
W2897787444 hasBestOaLocation W28977874442 @default.
W2897787444 hasConcept C109496249 @default.
W2897787444 hasConcept C110367647 @default.
W2897787444 hasConcept C120665830 @default.
W2897787444 hasConcept C121332964 @default.
W2897787444 hasConcept C16291881 @default.
W2897787444 hasConcept C181341577 @default.
W2897787444 hasConcept C19067145 @default.
W2897787444 hasConcept C197162081 @default.
W2897787444 hasConcept C204382992 @default.
W2897787444 hasConcept C205318122 @default.
W2897787444 hasConcept C26873012 @default.
W2897787444 hasConcept C42704618 @default.
W2897787444 hasConcept C43989790 @default.
W2897787444 hasConcept C44221107 @default.
W2897787444 hasConcept C520434653 @default.
W2897787444 hasConcept C62520636 @default.
W2897787444 hasConcept C70324355 @default.
W2897787444 hasConcept C82217956 @default.
W2897787444 hasConcept C97355855 @default.
W2897787444 hasConceptScore W2897787444C109496249 @default.
W2897787444 hasConceptScore W2897787444C110367647 @default.
W2897787444 hasConceptScore W2897787444C120665830 @default.
W2897787444 hasConceptScore W2897787444C121332964 @default.
W2897787444 hasConceptScore W2897787444C16291881 @default.