SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W1983279898> ?p ?o ?g. }

Showing items 1 to 100 of ±160 with 100 items per page.

W1983279898 endingPage "18780" @default.
W1983279898 startingPage "18765" @default.
W1983279898 abstract "Evidence is presented that suggests that there is a significant self‐organized criticality (SOC) component in the dynamics of substorms in the magnetosphere. We assume that observations of bursty bulk flows, fast flows, localized dipolarizations, plasma turbulence, etc. show that multiple localized reconnection sites provide the basic avalanche phenomenon in the establishment of SOC in the plasma sheet. First results are presented from a study of this avalanche process based on this working assumption. A magnetic field reversal model is discussed. Resistivity, in this model, is self‐consistently generated in response to the excitation of an idealized currentdriven instability. When forced by convection of magnetic flux into the field reversal region, the model yields rapid magnetic field annihilation through a dynamic behavior that is shown to exhibit many of the characteristics of SOC. Over a large range of forcing strengths, the annihilation rate is shown to self‐adjust to balance the rate at which flux is convected into the reversal region. Several analogies to magnetotail dynamics are discussed: (1) It is shown that the presence of a localized criticality in the model produces a remarkable stability in the global configuration of the field reversal while simultaneously exciting extraordinarily dynamic internal evolution. (2) Under steady forcing it is shown that a loading‐unloading cycle may arise that, as a consequence of the global stability, is quasi‐periodic and, therefore, predictable despite the presence of internal turbulence in the field distribution. Indeed, it is shown that the global loading‐unloading cycle is a consequence of the internal turbulence. (3) It is shown that under steady, strong forcing the loading‐unloading cycle vanishes. Instead, a recovery from a single unloading persists indefinitely. The field reversal is globally very steady while internally it is very dynamic as field annihilation goes on at the rate necessary to match the strong forcing. From this result we speculate that steady magnetospheric convection events result when the plasma sheet has been driven close to criticality over an extended spatial domain. During these events we would expect to find localized reconnection sites distributed over the spatial domain of near criticality, and we would expect to find plasma sheet transport in that domain to be closely related to that of BBF and fast flow events." @default.
W1983279898 created "2016-06-24" @default.
W1983279898 creator A5024028948 @default.
W1983279898 creator A5028876108 @default.
W1983279898 creator A5038768644 @default.
W1983279898 creator A5064082494 @default.
W1983279898 creator A5080269864 @default.
W1983279898 creator A5091421593 @default.
W1983279898 date "2000-08-01" @default.
W1983279898 modified "2023-09-30" @default.
W1983279898 title "Self-organized criticality in the substorm phenomenon and its relation to localized reconnection in the magnetospheric plasma sheet" @default.
W1983279898 cites W1507897739 @default.
W1983279898 cites W1568311699 @default.
W1983279898 cites W1963652713 @default.
W1983279898 cites W1966154398 @default.
W1983279898 cites W1967314009 @default.
W1983279898 cites W1967959558 @default.
W1983279898 cites W1968032464 @default.
W1983279898 cites W1971136728 @default.
W1983279898 cites W1979606638 @default.
W1983279898 cites W1986671011 @default.
W1983279898 cites W1989039401 @default.
W1983279898 cites W1991202271 @default.
W1983279898 cites W1992011543 @default.
W1983279898 cites W1992914753 @default.
W1983279898 cites W1993435535 @default.
W1983279898 cites W1997526559 @default.
W1983279898 cites W1998172005 @default.
W1983279898 cites W2001290010 @default.
W1983279898 cites W2008879046 @default.
W1983279898 cites W2009476145 @default.
W1983279898 cites W2010015995 @default.
W1983279898 cites W2010166747 @default.
W1983279898 cites W2011672265 @default.
W1983279898 cites W2017307806 @default.
W1983279898 cites W2018170062 @default.
W1983279898 cites W2022232329 @default.
W1983279898 cites W2022253401 @default.
W1983279898 cites W2025506145 @default.
W1983279898 cites W2031189722 @default.
W1983279898 cites W2033623402 @default.
W1983279898 cites W2035036445 @default.
W1983279898 cites W2035106385 @default.
W1983279898 cites W2038538671 @default.
W1983279898 cites W2042528363 @default.
W1983279898 cites W2044279459 @default.
W1983279898 cites W2045069246 @default.
W1983279898 cites W2046591591 @default.
W1983279898 cites W2051663839 @default.
W1983279898 cites W2055748474 @default.
W1983279898 cites W2056029255 @default.
W1983279898 cites W2060337859 @default.
W1983279898 cites W2068142103 @default.
W1983279898 cites W2069618874 @default.
W1983279898 cites W2072928978 @default.
W1983279898 cites W2075232522 @default.
W1983279898 cites W2075514521 @default.
W1983279898 cites W2078024291 @default.
W1983279898 cites W2081092820 @default.
W1983279898 cites W2082938274 @default.
W1983279898 cites W2083169475 @default.
W1983279898 cites W2084225263 @default.
W1983279898 cites W2087605070 @default.
W1983279898 cites W2088791205 @default.
W1983279898 cites W2091902336 @default.
W1983279898 cites W2093198221 @default.
W1983279898 cites W2101875415 @default.
W1983279898 cites W2101947270 @default.
W1983279898 cites W2103893476 @default.
W1983279898 cites W2107299616 @default.
W1983279898 cites W2111800584 @default.
W1983279898 cites W2112217963 @default.
W1983279898 cites W2112816180 @default.
W1983279898 cites W2121418334 @default.
W1983279898 cites W2141858775 @default.
W1983279898 cites W2154613290 @default.
W1983279898 cites W2168702455 @default.
W1983279898 cites W2592292593 @default.
W1983279898 cites W3166697022 @default.
W1983279898 cites W4242044742 @default.
W1983279898 doi "https://doi.org/10.1029/1999ja000319" @default.
W1983279898 hasPublicationYear "2000" @default.
W1983279898 type Work @default.
W1983279898 sameAs 1983279898 @default.
W1983279898 citedByCount "142" @default.
W1983279898 countsByYear W19832798982012 @default.
W1983279898 countsByYear W19832798982013 @default.
W1983279898 countsByYear W19832798982014 @default.
W1983279898 countsByYear W19832798982015 @default.
W1983279898 countsByYear W19832798982016 @default.
W1983279898 countsByYear W19832798982017 @default.
W1983279898 countsByYear W19832798982018 @default.
W1983279898 countsByYear W19832798982019 @default.
W1983279898 countsByYear W19832798982020 @default.
W1983279898 countsByYear W19832798982021 @default.
W1983279898 countsByYear W19832798982022 @default.
W1983279898 countsByYear W19832798982023 @default.
W1983279898 crossrefType "journal-article" @default.