SemOpenAlex |

SemOpenAlex

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2966486388> ?p ?o ?g. }

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

W2966486388 abstract "Abstract Electronically excited states of molecular and atomic oxygen ( O 2 and O ) are coupled with each other as well as with the ground states of O 2 and O in the Multiple Airglow Chemistry (MAC) model representing the oxygen airglow and the oxygen photochemistry in the upper Mesosphere and Lower Thermosphere region. The MAC model couples seven O 2 and three O states and was developed on the basis of in situ measurements from the ETON (Energy Transfer in the Oxygen Nightglow) campaign employed to tune rate values of unknown or poorly constrained processes. The same rate values are applied in the MAC model verified and validated on the basis of the in situ measurements obtained during the WADIS-2 (WAve propagation and DISsipation in the middle atmosphere), the WAVE2000 (WAVes in airglow structures Experiment, 2000) and WAVE2004 campaigns. Data sets measured using devices aboard the WADIS-2 rocket are considered to be self-consistent because the MAC retrievals of a concentration profile of O in the ground state ( [ O ( 3 P ) ] ) can be based on these data sets only. The measuring sites of the in situ data sets from the WAVE2000 and WAVE2004 campaigns are collocated with those of remotely obtained data sets, and these data sets are combined for the MAC retrievals. O 2 precursors responsible for the oxygen green line emission, emissions in the Atmospheric band and the Infrared Atmospheric band are identified and confirmed by calculations with the validated MAC model." @default.
W2966486388 created "2019-08-13" @default.
W2966486388 creator A5016516050 @default.
W2966486388 creator A5029184609 @default.
W2966486388 creator A5043866951 @default.
W2966486388 creator A5057746836 @default.
W2966486388 creator A5086551478 @default.
W2966486388 date "2019-11-01" @default.
W2966486388 modified "2023-09-27" @default.
W2966486388 title "Multiple Airglow Chemistry approach for atomic oxygen retrievals on the basis of insitu nightglow emissions" @default.
W2966486388 cites W1500541718 @default.
W2966486388 cites W1546868729 @default.
W2966486388 cites W1664098289 @default.
W2966486388 cites W1671363233 @default.
W2966486388 cites W1690413678 @default.
W2966486388 cites W1720265212 @default.
W2966486388 cites W1828570015 @default.
W2966486388 cites W1964798513 @default.
W2966486388 cites W1965079399 @default.
W2966486388 cites W1966488665 @default.
W2966486388 cites W1972522931 @default.
W2966486388 cites W1980289807 @default.
W2966486388 cites W1982224268 @default.
W2966486388 cites W1982683851 @default.
W2966486388 cites W1982979446 @default.
W2966486388 cites W1984745609 @default.
W2966486388 cites W1996158363 @default.
W2966486388 cites W1999031759 @default.
W2966486388 cites W2001910420 @default.
W2966486388 cites W2002633601 @default.
W2966486388 cites W2009048209 @default.
W2966486388 cites W2009944122 @default.
W2966486388 cites W2014089132 @default.
W2966486388 cites W2018385818 @default.
W2966486388 cites W2019975739 @default.
W2966486388 cites W2023549347 @default.
W2966486388 cites W2023836042 @default.
W2966486388 cites W2024199019 @default.
W2966486388 cites W2029371923 @default.
W2966486388 cites W2030595049 @default.
W2966486388 cites W2035094598 @default.
W2966486388 cites W2039281744 @default.
W2966486388 cites W2044642484 @default.
W2966486388 cites W2046611842 @default.
W2966486388 cites W2047328732 @default.
W2966486388 cites W2050428743 @default.
W2966486388 cites W2056150143 @default.
W2966486388 cites W2061954255 @default.
W2966486388 cites W2064186232 @default.
W2966486388 cites W2065226937 @default.
W2966486388 cites W2065349412 @default.
W2966486388 cites W2065868974 @default.
W2966486388 cites W2075578824 @default.
W2966486388 cites W2077630744 @default.
W2966486388 cites W2079478158 @default.
W2966486388 cites W2087949278 @default.
W2966486388 cites W2088302140 @default.
W2966486388 cites W2091233458 @default.
W2966486388 cites W2094152010 @default.
W2966486388 cites W2096789015 @default.
W2966486388 cites W2097971681 @default.
W2966486388 cites W2114995080 @default.
W2966486388 cites W2118065507 @default.
W2966486388 cites W2124715982 @default.
W2966486388 cites W2150353635 @default.
W2966486388 cites W2156047777 @default.
W2966486388 cites W2168234548 @default.
W2966486388 cites W2172294733 @default.
W2966486388 cites W2294677321 @default.
W2966486388 cites W2556538492 @default.
W2966486388 cites W2594434569 @default.
W2966486388 cites W2594880199 @default.
W2966486388 cites W2605618919 @default.
W2966486388 cites W2606936019 @default.
W2966486388 cites W2748154857 @default.
W2966486388 cites W2883933903 @default.
W2966486388 cites W2886692423 @default.
W2966486388 cites W2897660010 @default.
W2966486388 cites W2905455939 @default.
W2966486388 cites W2913061995 @default.
W2966486388 cites W2941440780 @default.
W2966486388 cites W583621661 @default.
W2966486388 doi "https://doi.org/10.1016/j.jastp.2019.105096" @default.
W2966486388 hasPublicationYear "2019" @default.
W2966486388 type Work @default.
W2966486388 sameAs 2966486388 @default.
W2966486388 citedByCount "3" @default.
W2966486388 countsByYear W29664863882020 @default.
W2966486388 countsByYear W29664863882021 @default.
W2966486388 crossrefType "journal-article" @default.
W2966486388 hasAuthorship W2966486388A5016516050 @default.
W2966486388 hasAuthorship W2966486388A5029184609 @default.
W2966486388 hasAuthorship W2966486388A5043866951 @default.
W2966486388 hasAuthorship W2966486388A5057746836 @default.
W2966486388 hasAuthorship W2966486388A5086551478 @default.
W2966486388 hasConcept C116403925 @default.
W2966486388 hasConcept C121332964 @default.
W2966486388 hasConcept C127313418 @default.
W2966486388 hasConcept C131980223 @default.
W2966486388 hasConcept C153294291 @default.