SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2507661462> ?p ?o ?g. }

Showing items 1 to 100 of ±165 with 100 items per page.

W2507661462 endingPage "1444" @default.
W2507661462 startingPage "1429" @default.
W2507661462 abstract "Abstract A one‐dimensional full‐particle model of the Martian upper thermosphere‐exosphere has been developed, where the Direct Simulation Monte Carlo (DSMC) method is applied to both thermal and nonthermal components. Our full‐particle model can self‐consistently solve the transition from collisional to collisionless domains in the upper thermosphere, so that the energy deposition from nonthermal energetic components to thermal components in the transition region is properly described. For the solar EUV condition during the Viking 1 measurement (1 EUV case), computed density profiles are in good agreement with those observed by Viking 1 and with the conventional model. For a solar EUV flux 6 times the Viking 1 condition (6 EUV case), the computed heating efficiency is essentially the same as the 1 EUV case but slightly increases by about 10% below the exobase, and temperature deviates from the conventional model in and above the transition region. This result suggests that the conventional heating efficiency of 0.18 is a good approximation for low (1 EUV case) to moderately strong (6 EUV case) solar EUV conditions but would be inappropriate for an extremely strong solar EUV (up to ~100 times stronger flux) environment. We also find that applying different models of the CO 2 ‐O collisional energy transfer rate results in a difference in the calculated exobase temperature by 150 K for the 6 EUV case." @default.
W2507661462 created "2016-09-16" @default.
W2507661462 creator A5001143147 @default.
W2507661462 creator A5012940863 @default.
W2507661462 creator A5015183954 @default.
W2507661462 creator A5019839031 @default.
W2507661462 creator A5022329354 @default.
W2507661462 creator A5022474800 @default.
W2507661462 creator A5032180784 @default.
W2507661462 creator A5081794147 @default.
W2507661462 creator A5089157316 @default.
W2507661462 date "2016-08-01" @default.
W2507661462 modified "2023-10-06" @default.
W2507661462 title "A full-particle Martian upper thermosphere-exosphere model using the DSMC method" @default.
W2507661462 cites W1483543373 @default.
W2507661462 cites W1507063967 @default.
W2507661462 cites W1615918817 @default.
W2507661462 cites W1974704365 @default.
W2507661462 cites W1975970256 @default.
W2507661462 cites W1976911885 @default.
W2507661462 cites W1976982561 @default.
W2507661462 cites W1977337078 @default.
W2507661462 cites W1982124339 @default.
W2507661462 cites W1982863709 @default.
W2507661462 cites W1986026928 @default.
W2507661462 cites W1986958080 @default.
W2507661462 cites W1987500489 @default.
W2507661462 cites W1987692807 @default.
W2507661462 cites W1991429627 @default.
W2507661462 cites W1993067957 @default.
W2507661462 cites W1994448081 @default.
W2507661462 cites W1994675309 @default.
W2507661462 cites W1995846083 @default.
W2507661462 cites W1999962663 @default.
W2507661462 cites W2001153644 @default.
W2507661462 cites W2002463314 @default.
W2507661462 cites W2005260481 @default.
W2507661462 cites W2006416639 @default.
W2507661462 cites W2007143637 @default.
W2507661462 cites W2011720987 @default.
W2507661462 cites W2013771442 @default.
W2507661462 cites W2015807663 @default.
W2507661462 cites W2024368191 @default.
W2507661462 cites W2028175696 @default.
W2507661462 cites W2031054139 @default.
W2507661462 cites W2032228800 @default.
W2507661462 cites W2032760929 @default.
W2507661462 cites W2048370431 @default.
W2507661462 cites W2048727165 @default.
W2507661462 cites W2052648581 @default.
W2507661462 cites W2063068374 @default.
W2507661462 cites W2064039752 @default.
W2507661462 cites W2067874201 @default.
W2507661462 cites W2068484144 @default.
W2507661462 cites W2068713130 @default.
W2507661462 cites W2082329580 @default.
W2507661462 cites W2084250296 @default.
W2507661462 cites W2087067899 @default.
W2507661462 cites W2087874274 @default.
W2507661462 cites W2088880811 @default.
W2507661462 cites W2089554801 @default.
W2507661462 cites W2090411747 @default.
W2507661462 cites W2099221627 @default.
W2507661462 cites W2100925447 @default.
W2507661462 cites W2103274679 @default.
W2507661462 cites W2104360802 @default.
W2507661462 cites W2120790539 @default.
W2507661462 cites W2133644198 @default.
W2507661462 cites W2139770498 @default.
W2507661462 cites W2141087161 @default.
W2507661462 cites W2141161260 @default.
W2507661462 cites W2142461845 @default.
W2507661462 cites W2146935779 @default.
W2507661462 cites W2152232816 @default.
W2507661462 cites W2154523008 @default.
W2507661462 cites W4232995397 @default.
W2507661462 cites W2050944979 @default.
W2507661462 doi "https://doi.org/10.1002/2015je004961" @default.
W2507661462 hasPublicationYear "2016" @default.
W2507661462 type Work @default.
W2507661462 sameAs 2507661462 @default.
W2507661462 citedByCount "5" @default.
W2507661462 countsByYear W25076614622017 @default.
W2507661462 countsByYear W25076614622018 @default.
W2507661462 countsByYear W25076614622021 @default.
W2507661462 crossrefType "journal-article" @default.
W2507661462 hasAuthorship W2507661462A5001143147 @default.
W2507661462 hasAuthorship W2507661462A5012940863 @default.
W2507661462 hasAuthorship W2507661462A5015183954 @default.
W2507661462 hasAuthorship W2507661462A5019839031 @default.
W2507661462 hasAuthorship W2507661462A5022329354 @default.
W2507661462 hasAuthorship W2507661462A5022474800 @default.
W2507661462 hasAuthorship W2507661462A5032180784 @default.
W2507661462 hasAuthorship W2507661462A5081794147 @default.
W2507661462 hasAuthorship W2507661462A5089157316 @default.
W2507661462 hasBestOaLocation W25076614622 @default.
W2507661462 hasConcept C105795698 @default.
W2507661462 hasConcept C116403925 @default.