FRINK Linked Data Fragments server

Matches in SemOpenAlex for { <https://semopenalex.org/work/W2783752850> ?p ?o ?g. }

• W2783752850 endingPage "2212" @default.
• W2783752850 startingPage "2187" @default.
• W2783752850 abstract "Abstract. In this paper we describe the stratospheric and mesospheric ozone (version V5r_O3_m22) distributions retrieved from MIPAS observations in the three middle atmosphere modes (MA, NLC, and UA) taken with an unapodized spectral resolution of 0.0625 cm−1 from 2005 until April 2012. O3 is retrieved from microwindows in the 14.8 and 10 µm spectral regions and requires non-local thermodynamic equilibrium (non-LTE) modelling of the O3 v1 and v3 vibrational levels. Ozone is reliably retrieved from 20 km in the MA mode (40 km for UA and NLC) up to ∼ 105 km during dark conditions and up to ∼ 95 km during illuminated conditions. Daytime MIPAS O3 has an average vertical resolution of 3–4 km below 70 km, 6–8 km at 70–80 km, 8–10 km at 80–90, and 5–7 km at the secondary maximum (90–100 km). For nighttime conditions, the vertical resolution is similar below 70 km and better in the upper mesosphere and lower thermosphere: 4–6 km at 70–100 km, 4–5 km at the secondary maximum, and 6–8 km at 100–105 km. The noise error for daytime conditions is typically smaller than 2 % below 50 km, 2–10 % between 50 and 70 km, 10–20 % at 70–90 km, and ∼ 30 % above 95 km. For nighttime, the noise errors are very similar below around 70 km but significantly smaller above, being 10–20 % at 75–95 km, 20–30 % at 95–100 km, and larger than 30 % above 100 km. The additional major O3 errors are the spectroscopic data uncertainties below 50 km (10–12 %) and the non-LTE and temperature errors above 70 km. The validation performed suggests that the spectroscopic errors below 50 km, mainly caused by the O3 air-broadened half-widths of the v2 band, are overestimated. The non-LTE error (including the uncertainty of atomic oxygen in nighttime) is relevant only above ∼ 85 km with values of 15–20 %. The temperature error varies from ∼ 3 % up to 80 km to 15–20 % near 100 km. Between 50 and 70 km, the pointing and spectroscopic errors are the dominant uncertainties. The validation performed in comparisons with SABER, GOMOS, MLS, SMILES, and ACE-FTS shows that MIPAS O3 has an accuracy better than 5 % at and below 50 km, with a positive bias of a few percent. In the 50–75 km region, MIPAS O3 has a positive bias of ≈ 10 %, which is possibly caused in part by O3 spectroscopic errors in the 10 µm region. Between 75 and 90 km, MIPAS nighttime O3 is in agreement with other instruments by 10 %, but for daytime the agreement is slightly larger, ∼ 10–20 %. Above 90 km, MIPAS daytime O3 is in agreement with other instruments by 10 %. At night, however, it shows a positive bias increasing from 10 % at 90 km to 20 % at 95–100 km, the latter of which is attributed to the large atomic oxygen abundance used. We also present MIPAS O3 distributions as function of altitude, latitude, and time, showing the major O3 features in the middle and upper mesosphere. In addition to the rapid diurnal variation due to photochemistry, the data also show apparent signatures of the diurnal migrating tide during both day- and nighttime, as well as the effects of the semi-annual oscillation above ∼ 70 km in the tropics and mid-latitudes. The tropical daytime O3 at 90 km shows a solar signature in phase with the solar cycle." @default.
• W2783752850 created "2018-01-26" @default.
• W2783752850 creator A5001012995 @default.
• W2783752850 creator A5001200537 @default.
• W2783752850 creator A5027594355 @default.
• W2783752850 creator A5032249857 @default.
• W2783752850 creator A5032553507 @default.
• W2783752850 creator A5034160246 @default.
• W2783752850 creator A5035272159 @default.
• W2783752850 creator A5036178000 @default.
• W2783752850 creator A5052977075 @default.
• W2783752850 creator A5056858690 @default.
• W2783752850 creator A5060800514 @default.
• W2783752850 creator A5071107014 @default.
• W2783752850 creator A5071277995 @default.
• W2783752850 date "2018-04-18" @default.
• W2783752850 modified "2023-10-18" @default.
• W2783752850 title "MIPAS observations of ozone in the middle atmosphere" @default.
• W2783752850 cites W1488880328 @default.
• W2783752850 cites W1552327857 @default.
• W2783752850 cites W1555825899 @default.
• W2783752850 cites W1788998865 @default.
• W2783752850 cites W1881261820 @default.
• W2783752850 cites W1963923690 @default.
• W2783752850 cites W1978967134 @default.
• W2783752850 cites W1979915631 @default.
• W2783752850 cites W1983558390 @default.
• W2783752850 cites W1987352575 @default.
• W2783752850 cites W1989941057 @default.
• W2783752850 cites W2002240124 @default.
• W2783752850 cites W2004386386 @default.
• W2783752850 cites W2010724573 @default.
• W2783752850 cites W2012108482 @default.
• W2783752850 cites W2013053389 @default.
• W2783752850 cites W2015490790 @default.
• W2783752850 cites W2018385818 @default.
• W2783752850 cites W2021379743 @default.
• W2783752850 cites W2029936608 @default.
• W2783752850 cites W2035187320 @default.
• W2783752850 cites W2035796177 @default.
• W2783752850 cites W2036239319 @default.
• W2783752850 cites W2036486012 @default.
• W2783752850 cites W2051416171 @default.
• W2783752850 cites W2063469172 @default.
• W2783752850 cites W2063898017 @default.
• W2783752850 cites W2070479994 @default.
• W2783752850 cites W2088871996 @default.
• W2783752850 cites W2094140799 @default.
• W2783752850 cites W2096489521 @default.
• W2783752850 cites W2101749815 @default.
• W2783752850 cites W2104718076 @default.
• W2783752850 cites W2105326128 @default.
• W2783752850 cites W2106283272 @default.
• W2783752850 cites W2117605914 @default.
• W2783752850 cites W2120702519 @default.
• W2783752850 cites W2122329062 @default.
• W2783752850 cites W2124076514 @default.
• W2783752850 cites W2124715982 @default.
• W2783752850 cites W2129913217 @default.
• W2783752850 cites W2132341916 @default.
• W2783752850 cites W2133151341 @default.
• W2783752850 cites W2133542718 @default.
• W2783752850 cites W2144850672 @default.
• W2783752850 cites W2144946926 @default.
• W2783752850 cites W2144977834 @default.
• W2783752850 cites W2146397616 @default.
• W2783752850 cites W2167509939 @default.
• W2783752850 cites W2298433521 @default.
• W2783752850 cites W2463762351 @default.
• W2783752850 cites W2601551211 @default.
• W2783752850 cites W2796683456 @default.
• W2783752850 cites W4205182410 @default.
• W2783752850 cites W4211058530 @default.
• W2783752850 cites W4234134115 @default.
• W2783752850 cites W4245085290 @default.
• W2783752850 doi "https://doi.org/10.5194/amt-11-2187-2018" @default.
• W2783752850 hasPublicationYear "2018" @default.
• W2783752850 type Work @default.
• W2783752850 sameAs 2783752850 @default.
• W2783752850 citedByCount "9" @default.
• W2783752850 countsByYear W27837528502018 @default.
• W2783752850 countsByYear W27837528502019 @default.
• W2783752850 countsByYear W27837528502020 @default.
• W2783752850 countsByYear W27837528502022 @default.
• W2783752850 countsByYear W27837528502023 @default.
• W2783752850 crossrefType "journal-article" @default.
• W2783752850 hasAuthorship W2783752850A5001012995 @default.
• W2783752850 hasAuthorship W2783752850A5001200537 @default.
• W2783752850 hasAuthorship W2783752850A5027594355 @default.
• W2783752850 hasAuthorship W2783752850A5032249857 @default.
• W2783752850 hasAuthorship W2783752850A5032553507 @default.
• W2783752850 hasAuthorship W2783752850A5034160246 @default.
• W2783752850 hasAuthorship W2783752850A5035272159 @default.
• W2783752850 hasAuthorship W2783752850A5036178000 @default.
• W2783752850 hasAuthorship W2783752850A5052977075 @default.
• W2783752850 hasAuthorship W2783752850A5056858690 @default.
• W2783752850 hasAuthorship W2783752850A5060800514 @default.
• W2783752850 hasAuthorship W2783752850A5071107014 @default.

• next