SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2798049767> ?p ?o ?g. }

Showing items 1 to 100 of ±138 with 100 items per page.

W2798049767 abstract "The generalized nonparaxial nonlinear Schrödinger (NLS) equation in optical fibers filled with chiral materials is reduced to the higher-order integrable Hirota equation. Based on the modified Darboux transformation method, the nonparaxial chiral optical rogue waves are constructed from the scalar model with modulated coefficients. We show that the parameters of nonparaxiality, third-order dispersion, and differential gain or loss term are the main keys to control the amplitude, linear, and nonlinear effects in the model. Moreover, the influence of nonparaxiality, optical activity, and walk-off effect are also evidenced under the defocusing and focusing regimes of the vector nonparaxial NLS equations with constant and modulated coefficients. Through an algorithm scheme of wider applicability on nonparaxial beam propagation methods, the most influential effect and the simultaneous controllability of combined effects are underlined, showing their properties and their potential applications in optical fibers and in a variety of complex dynamical systems." @default.
W2798049767 created "2018-04-24" @default.
W2798049767 creator A5052519972 @default.
W2798049767 creator A5058536241 @default.
W2798049767 creator A5080581989 @default.
W2798049767 date "2018-04-09" @default.
W2798049767 modified "2023-10-18" @default.
W2798049767 title "Combined effects of nonparaxiality, optical activity, and walk-off on rogue wave propagation in optical fibers filled with chiral materials" @default.
W2798049767 cites W1509337642 @default.
W2798049767 cites W18555398 @default.
W2798049767 cites W1967952520 @default.
W2798049767 cites W1970623568 @default.
W2798049767 cites W1971067396 @default.
W2798049767 cites W1977192067 @default.
W2798049767 cites W1986190249 @default.
W2798049767 cites W1989394456 @default.
W2798049767 cites W1994448322 @default.
W2798049767 cites W1995209211 @default.
W2798049767 cites W1996085957 @default.
W2798049767 cites W1998746588 @default.
W2798049767 cites W2000862783 @default.
W2798049767 cites W2004859405 @default.
W2798049767 cites W2008017033 @default.
W2798049767 cites W2012396789 @default.
W2798049767 cites W2013923935 @default.
W2798049767 cites W2014386722 @default.
W2798049767 cites W2017734435 @default.
W2798049767 cites W2018028955 @default.
W2798049767 cites W2018706600 @default.
W2798049767 cites W2024021018 @default.
W2798049767 cites W2027137765 @default.
W2798049767 cites W2035829131 @default.
W2798049767 cites W2036775756 @default.
W2798049767 cites W2038886748 @default.
W2798049767 cites W2047135677 @default.
W2798049767 cites W2049915610 @default.
W2798049767 cites W2061034197 @default.
W2798049767 cites W2070932860 @default.
W2798049767 cites W2079984597 @default.
W2798049767 cites W2082118413 @default.
W2798049767 cites W2084974505 @default.
W2798049767 cites W2085127359 @default.
W2798049767 cites W2089172724 @default.
W2798049767 cites W2093274602 @default.
W2798049767 cites W2093832830 @default.
W2798049767 cites W2094540987 @default.
W2798049767 cites W2094590320 @default.
W2798049767 cites W2100522296 @default.
W2798049767 cites W2104337214 @default.
W2798049767 cites W2113604637 @default.
W2798049767 cites W2126201724 @default.
W2798049767 cites W2158066165 @default.
W2798049767 cites W2160231043 @default.
W2798049767 cites W2162752001 @default.
W2798049767 cites W2171381310 @default.
W2798049767 cites W2240820289 @default.
W2798049767 cites W2316386143 @default.
W2798049767 cites W2328442182 @default.
W2798049767 cites W2333318595 @default.
W2798049767 cites W2340178336 @default.
W2798049767 cites W2418300139 @default.
W2798049767 cites W2472914151 @default.
W2798049767 cites W2534444288 @default.
W2798049767 cites W2797256054 @default.
W2798049767 cites W3099687097 @default.
W2798049767 cites W3101560702 @default.
W2798049767 cites W3102453631 @default.
W2798049767 cites W3102542498 @default.
W2798049767 cites W3125638884 @default.
W2798049767 cites W2514261303 @default.
W2798049767 doi "https://doi.org/10.1103/physreve.97.042205" @default.
W2798049767 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/29758712" @default.
W2798049767 hasPublicationYear "2018" @default.
W2798049767 type Work @default.
W2798049767 sameAs 2798049767 @default.
W2798049767 citedByCount "8" @default.
W2798049767 countsByYear W27980497672018 @default.
W2798049767 countsByYear W27980497672019 @default.
W2798049767 countsByYear W27980497672020 @default.
W2798049767 countsByYear W27980497672022 @default.
W2798049767 countsByYear W27980497672023 @default.
W2798049767 crossrefType "journal-article" @default.
W2798049767 hasAuthorship W2798049767A5052519972 @default.
W2798049767 hasAuthorship W2798049767A5058536241 @default.
W2798049767 hasAuthorship W2798049767A5080581989 @default.
W2798049767 hasConcept C120665830 @default.
W2798049767 hasConcept C121332964 @default.
W2798049767 hasConcept C134306372 @default.
W2798049767 hasConcept C158622935 @default.
W2798049767 hasConcept C177562468 @default.
W2798049767 hasConcept C189201455 @default.
W2798049767 hasConcept C194232370 @default.
W2798049767 hasConcept C200741047 @default.
W2798049767 hasConcept C2524010 @default.
W2798049767 hasConcept C28826006 @default.
W2798049767 hasConcept C33923547 @default.
W2798049767 hasConcept C37914503 @default.
W2798049767 hasConcept C48209547 @default.
W2798049767 hasConcept C57691317 @default.
W2798049767 hasConcept C62520636 @default.