FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2070747646> ?p ?o ?g. }

• W2070747646 endingPage "n/a" @default.
• W2070747646 startingPage "n/a" @default.
• W2070747646 abstract "[1] We investigated the properties of physical parameters during earthward flow burst (FB) events in the near-Earth magnetic tail. For the investigation, we used the measurements made by two of the Cluster satellites, C1 and C4, from 2001 to 2003 and selected FB events based on a set of strict criteria. First, while we confirmed the well-known fact that the FBs are characterized by generally having a lower density than that of their surrounding medium, we newly found that the maximum flow speed of FBs is statistically proportional to the density depletion amount relative to the surrounding medium density. Namely, more density-depleted FBs relative to the surrounding medium density move faster toward the Earth. We statistically determined the flux tube entropy parameter pV5/3, where p is the ion pressure and V is the flux tube volume of unit magnetic flux, and found that nearly all of the FB events indicate a decrease as compared to the background values. These results clearly support the bubble model of the flow burst events examined here. Also we found that the FBs can be of high or low temperature or ion pressure: while the majority of the FB events show an increased temperature and a decreased ion pressure as compared to those of background, ∼30% of the events indicate an opposite behavior. This does not contradict the bubble idea as long as they are associated with a reduced pV5/3. In addition, we found a few other interesting features which can all be interpreted within the bubble model. First, the temperature is found to be overall nearly isotropic during some FB events and only weakly anisotropic during some other FB events. However, we newly found that when it is anisotropic, T⊥ is higher than T∥ for ∼63% of the FB events and T⊥/T∥ increases during FBs as compared to that of the preceding quiet time interval. One implication of this result is that the Betatron acceleration takes place more effectively over the Fermi acceleration during the course of the earthward transportation of bubble flux tubes. Also, we newly found that for ∼23% of the FB events, even the small amount of the anisotropy exceed the classic mirror instability limit mainly due to a high plasma beta condition while the firehose instability limit is rarely violated. Last, the total pressure (plasma pressure plus magnetic pressure) decreases for ∼74% of the FB events and does not for the others. A more interesting feature is that while the total pressure change is small for most of the FBs, some events reveal a nonnegligible unbalance with the surrounding medium. This implies the existence of the total pressure gradient force acting on the bubble flux tubes of such events, which likely decelerates the earthward motion of the flux tube, in addition to the accelerating magnetic tension force." @default.
• W2070747646 created "2016-06-24" @default.
• W2070747646 creator A5015681354 @default.
• W2070747646 creator A5022792453 @default.
• W2070747646 creator A5052841252 @default.
• W2070747646 creator A5054999845 @default.
• W2070747646 creator A5083926853 @default.
• W2070747646 date "2010-12-01" @default.
• W2070747646 modified "2023-09-26" @default.
• W2070747646 title "Some statistical properties of flow bursts in the magnetotail" @default.
• W2070747646 cites W1485118321 @default.
• W2070747646 cites W1571111345 @default.
• W2070747646 cites W1573716820 @default.
• W2070747646 cites W1593617336 @default.
• W2070747646 cites W1710699654 @default.
• W2070747646 cites W1967959558 @default.
• W2070747646 cites W1968150279 @default.
• W2070747646 cites W1969458092 @default.
• W2070747646 cites W1974468654 @default.
• W2070747646 cites W1976250965 @default.
• W2070747646 cites W1978866544 @default.
• W2070747646 cites W1982575954 @default.
• W2070747646 cites W1984218875 @default.
• W2070747646 cites W1985649273 @default.
• W2070747646 cites W1986404838 @default.
• W2070747646 cites W1987221411 @default.
• W2070747646 cites W1989385747 @default.
• W2070747646 cites W1998172005 @default.
• W2070747646 cites W2002345125 @default.
• W2070747646 cites W2009502030 @default.
• W2070747646 cites W2014267492 @default.
• W2070747646 cites W2017150634 @default.
• W2070747646 cites W2019520795 @default.
• W2070747646 cites W2020188819 @default.
• W2070747646 cites W2020616713 @default.
• W2070747646 cites W2023878915 @default.
• W2070747646 cites W2033083287 @default.
• W2070747646 cites W2034262165 @default.
• W2070747646 cites W2034819846 @default.
• W2070747646 cites W2050112897 @default.
• W2070747646 cites W2055859609 @default.
• W2070747646 cites W2057359923 @default.
• W2070747646 cites W2060337859 @default.
• W2070747646 cites W2071339788 @default.
• W2070747646 cites W2072404929 @default.
• W2070747646 cites W2079961019 @default.
• W2070747646 cites W2093198221 @default.
• W2070747646 cites W2096740924 @default.
• W2070747646 cites W2101947270 @default.
• W2070747646 cites W2103484130 @default.
• W2070747646 cites W2110219211 @default.
• W2070747646 cites W2119128472 @default.
• W2070747646 cites W2131670642 @default.
• W2070747646 cites W2134128538 @default.
• W2070747646 cites W2145613264 @default.
• W2070747646 cites W2155304606 @default.
• W2070747646 cites W2168702455 @default.
• W2070747646 cites W2170395381 @default.
• W2070747646 cites W2171175633 @default.
• W2070747646 doi "https://doi.org/10.1029/2009ja015173" @default.
• W2070747646 hasPublicationYear "2010" @default.
• W2070747646 type Work @default.
• W2070747646 sameAs 2070747646 @default.
• W2070747646 citedByCount "17" @default.
• W2070747646 countsByYear W20707476462012 @default.
• W2070747646 countsByYear W20707476462013 @default.
• W2070747646 countsByYear W20707476462014 @default.
• W2070747646 countsByYear W20707476462015 @default.
• W2070747646 countsByYear W20707476462016 @default.
• W2070747646 countsByYear W20707476462018 @default.
• W2070747646 countsByYear W20707476462020 @default.
• W2070747646 countsByYear W20707476462022 @default.
• W2070747646 countsByYear W20707476462023 @default.
• W2070747646 crossrefType "journal-article" @default.
• W2070747646 hasAuthorship W2070747646A5015681354 @default.
• W2070747646 hasAuthorship W2070747646A5022792453 @default.
• W2070747646 hasAuthorship W2070747646A5052841252 @default.
• W2070747646 hasAuthorship W2070747646A5054999845 @default.
• W2070747646 hasAuthorship W2070747646A5083926853 @default.
• W2070747646 hasBestOaLocation W20707476461 @default.
• W2070747646 hasConcept C115260700 @default.
• W2070747646 hasConcept C121332964 @default.
• W2070747646 hasConcept C145148216 @default.
• W2070747646 hasConcept C157479481 @default.
• W2070747646 hasConcept C157915830 @default.
• W2070747646 hasConcept C191897082 @default.
• W2070747646 hasConcept C192562407 @default.
• W2070747646 hasConcept C2780379797 @default.
• W2070747646 hasConcept C38349280 @default.
• W2070747646 hasConcept C57879066 @default.
• W2070747646 hasConcept C62520636 @default.
• W2070747646 hasConcept C68709404 @default.
• W2070747646 hasConceptScore W2070747646C115260700 @default.
• W2070747646 hasConceptScore W2070747646C121332964 @default.
• W2070747646 hasConceptScore W2070747646C145148216 @default.
• W2070747646 hasConceptScore W2070747646C157479481 @default.
• W2070747646 hasConceptScore W2070747646C157915830 @default.
• W2070747646 hasConceptScore W2070747646C191897082 @default.

• next