SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2922246531> ?p ?o ?g. }

Showing items 1 to 100 of ±122 with 100 items per page.

W2922246531 endingPage "1941" @default.
W2922246531 startingPage "1937" @default.
W2922246531 abstract "The occurrence of cylindrical and spherical low-frequency dust-acoustic freak waves (DAFWs) in a strongly coupled dusty plasma is numerically investigated in the framework of the phenomenological generalized hydrodynamic model. The basic equations are reduced to a modified/nonplanar nonlinear Schrödinger equation (mNLSE) using a reductive perturbation method. The existing regions of instability structures have been carefully identified. For studying the propagation of rogue waves in case of nonplanar (cylindrical and spherical coordinates), the mNLSE has been solved numerically. The effects of nonplanar geometries on the basic features of the DAFWs for the first- and second-orders rogue waves are discussed. Finally, our results are of relevance in ultradense situations where nonplaner geometrical effects are significant. In particular, we expect for our findings to be important to understand the DA breathers experimentally in a strongly coupled dusty plasma." @default.
W2922246531 created "2019-03-22" @default.
W2922246531 creator A5007811111 @default.
W2922246531 creator A5012573303 @default.
W2922246531 creator A5021169344 @default.
W2922246531 creator A5023575962 @default.
W2922246531 date "2019-06-01" @default.
W2922246531 modified "2023-10-16" @default.
W2922246531 title "On the numerical solution of nonplanar dust-acoustic super rogue waves in a strongly coupled dusty plasma" @default.
W2922246531 cites W1968721496 @default.
W2922246531 cites W1970024351 @default.
W2922246531 cites W1974802288 @default.
W2922246531 cites W1980396694 @default.
W2922246531 cites W1985050512 @default.
W2922246531 cites W1988935379 @default.
W2922246531 cites W2001354761 @default.
W2922246531 cites W2006820632 @default.
W2922246531 cites W2008883217 @default.
W2922246531 cites W2012518594 @default.
W2922246531 cites W2014307815 @default.
W2922246531 cites W2017853814 @default.
W2922246531 cites W2018268580 @default.
W2922246531 cites W2018713602 @default.
W2922246531 cites W2023896836 @default.
W2922246531 cites W2026656236 @default.
W2922246531 cites W2026789803 @default.
W2922246531 cites W2037318533 @default.
W2922246531 cites W2038416430 @default.
W2922246531 cites W2039614387 @default.
W2922246531 cites W2047135677 @default.
W2922246531 cites W2049635189 @default.
W2922246531 cites W2060009486 @default.
W2922246531 cites W2067262762 @default.
W2922246531 cites W2083397958 @default.
W2922246531 cites W2086843477 @default.
W2922246531 cites W2087768396 @default.
W2922246531 cites W2093274602 @default.
W2922246531 cites W2093602468 @default.
W2922246531 cites W2102582588 @default.
W2922246531 cites W2119996003 @default.
W2922246531 cites W2131396090 @default.
W2922246531 cites W2137242086 @default.
W2922246531 cites W2138592567 @default.
W2922246531 cites W2143289589 @default.
W2922246531 cites W2145578438 @default.
W2922246531 cites W2150627098 @default.
W2922246531 cites W2158066165 @default.
W2922246531 cites W2268020843 @default.
W2922246531 cites W2288251955 @default.
W2922246531 cites W2314223719 @default.
W2922246531 cites W2332366258 @default.
W2922246531 cites W2337888165 @default.
W2922246531 cites W2342135449 @default.
W2922246531 cites W2489913954 @default.
W2922246531 cites W2569122576 @default.
W2922246531 cites W2599666618 @default.
W2922246531 cites W2656085205 @default.
W2922246531 cites W2753615984 @default.
W2922246531 cites W2767514663 @default.
W2922246531 cites W2769115122 @default.
W2922246531 cites W2810767533 @default.
W2922246531 cites W2883472229 @default.
W2922246531 cites W2886097335 @default.
W2922246531 cites W3102701892 @default.
W2922246531 cites W3109323387 @default.
W2922246531 doi "https://doi.org/10.1016/j.physleta.2019.03.011" @default.
W2922246531 hasPublicationYear "2019" @default.
W2922246531 type Work @default.
W2922246531 sameAs 2922246531 @default.
W2922246531 citedByCount "18" @default.
W2922246531 countsByYear W29222465312020 @default.
W2922246531 countsByYear W29222465312021 @default.
W2922246531 countsByYear W29222465312022 @default.
W2922246531 countsByYear W29222465312023 @default.
W2922246531 crossrefType "journal-article" @default.
W2922246531 hasAuthorship W2922246531A5007811111 @default.
W2922246531 hasAuthorship W2922246531A5012573303 @default.
W2922246531 hasAuthorship W2922246531A5021169344 @default.
W2922246531 hasAuthorship W2922246531A5023575962 @default.
W2922246531 hasConcept C121332964 @default.
W2922246531 hasConcept C158622935 @default.
W2922246531 hasConcept C189201455 @default.
W2922246531 hasConcept C204723758 @default.
W2922246531 hasConcept C3079626 @default.
W2922246531 hasConcept C4424474 @default.
W2922246531 hasConcept C57879066 @default.
W2922246531 hasConcept C62520636 @default.
W2922246531 hasConcept C74455749 @default.
W2922246531 hasConcept C74650414 @default.
W2922246531 hasConcept C82706917 @default.
W2922246531 hasConceptScore W2922246531C121332964 @default.
W2922246531 hasConceptScore W2922246531C158622935 @default.
W2922246531 hasConceptScore W2922246531C189201455 @default.
W2922246531 hasConceptScore W2922246531C204723758 @default.
W2922246531 hasConceptScore W2922246531C3079626 @default.
W2922246531 hasConceptScore W2922246531C4424474 @default.
W2922246531 hasConceptScore W2922246531C57879066 @default.
W2922246531 hasConceptScore W2922246531C62520636 @default.