Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements

Improved radiative transfer simulation and multi-window retrieval procedures (MWR) are described that are applied to investigate thermal structure and cloud features in the nightside atmosphere of Venus over the northern hemisphere. Comparative analyses of spectroscopic data, which were recorded ind...

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Bibliographic Details
Published in:Planetary and Space Science
Main Authors: Haus, Rainer, Kappel, David, Arnold, Gabriele
Format: Other Non-Article Part of Journal/Newspaper
Language:English
Published: Elsevier 2013
Subjects:
Institut für Planetenforschung
North Pole
Venus
Venera
Online Access:http://elib.dlr.de/87166/
http://elib.dlr.de/87166/1/Haus%20et%20al.%202013_Planetary%20Space%20Science.pdf
https://doi.org/10.1016/j.pss.2013.09.020
id ftdlr:oai:elib.dlr.de:87166
record_format openpolar
spelling ftdlr:oai:elib.dlr.de:87166 2023-05-15T17:40:04+02:00 Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements Haus, Rainer Kappel, David Arnold, Gabriele 2013-12 application/pdf http://elib.dlr.de/87166/ http://elib.dlr.de/87166/1/Haus%20et%20al.%202013_Planetary%20Space%20Science.pdf https://doi.org/10.1016/j.pss.2013.09.020 en eng Elsevier http://elib.dlr.de/87166/1/Haus%20et%20al.%202013_Planetary%20Space%20Science.pdf Haus, Rainer und Kappel, David und Arnold, Gabriele (2013) Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements. Planetary and Space Science, 89, Seiten 77-101. Elsevier. DOI:10.1016/j.pss.2013.09.020. ISSN 0032-0633. Institut für Planetenforschung Zeitschriftenbeitrag PeerReviewed 2013 ftdlr https://doi.org/10.1016/j.pss.2013.09.020 2016-03-28T21:04:31Z Improved radiative transfer simulation and multi-window retrieval procedures (MWR) are described that are applied to investigate thermal structure and cloud features in the nightside atmosphere of Venus over the northern hemisphere. Comparative analyses of spectroscopic data, which were recorded independently in different parts of the infrared spectrum by the Visible and InfraRed Thermal Imaging Spectrometer (VIRTIS-M-IR) aboard ESA's Venus Express space probe and the Profile Measuring Instrument for Venus (PMV, Fourier spectrometer FS-1/4) during the earlier Soviet Venera-15 experiment, are combined with self-consistent temperature profile and cloud parameter retrievals. MWR performance is studied using synthetic spectra at different latitudes and for different atmospheric temperature profiles and cloud parameters. VIRTIS and PMV retrieval result comparisons are used to determine constraints on physical state parameter variations, especially on applicability of different cloud models. An analytically parameterized initial model of four-modal cloud altitude distributions is proposed. Together with retrieved cloud parameters, which encompass individual mode factors and cloud upper altitude boundary, it permits optimum fits of measured radiances and brightness temperatures in the 4.3 and 15 µm CO2 bands utilized for atmospheric temperature profile retrievals. A new multi-spectrum retrieval (MSR) method provides deep atmosphere CO2 opacity correction parameters, which affect cloud parameter retrievals from short-wavelength emission windows. The main features of retrieved latitude and altitude-dependent temperature fields (zonal averages) are in good quantitative accordance with earlier obtained results. Prominent structures like ‘cold collar’ and ‘hot dipole’ are re-examined. The cold inversion layer is centered at about 62–66 km and 55 and 75°N. Below the collar, temperature usually decreases with latitude at the same altitude, while it typically increases toward the pole above 70 km. Absolute temperature differences between zonal averages of VIRTIS and PMV results are usually below 3 K between 58 and 80 km, while a 9 K lower VIRTIS temperature is only observed at 75°N near 60 km. Both VIRTIS and PMV retrievals reveal a slow decrease of cloud top altitude from about 71 km at the equator to about 70 km at mid latitudes. Northward of 55°N, it quickly descends down to about 61.5 km at polar latitudes in accordance with earlier results. Cloud particle size and total cloud optical depth exhibit a minimum at 50°N and increase towards the equator and the North Pole. The hemispheric average of cloud opacity derived from VIRTIS data is 34.7 at 1 µm. Other Non-Article Part of Journal/Newspaper North Pole German Aerospace Center: elib - DLR electronic library North Pole Venus ENVELOPE(-57.842,-57.842,-61.925,-61.925) Venera ENVELOPE(155.572,155.572,63.961,63.961) Planetary and Space Science 89 77 101
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language English
topic Institut für Planetenforschung
spellingShingle Institut für Planetenforschung
Haus, Rainer
Kappel, David
Arnold, Gabriele
Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements
topic_facet Institut für Planetenforschung
description Improved radiative transfer simulation and multi-window retrieval procedures (MWR) are described that are applied to investigate thermal structure and cloud features in the nightside atmosphere of Venus over the northern hemisphere. Comparative analyses of spectroscopic data, which were recorded independently in different parts of the infrared spectrum by the Visible and InfraRed Thermal Imaging Spectrometer (VIRTIS-M-IR) aboard ESA's Venus Express space probe and the Profile Measuring Instrument for Venus (PMV, Fourier spectrometer FS-1/4) during the earlier Soviet Venera-15 experiment, are combined with self-consistent temperature profile and cloud parameter retrievals. MWR performance is studied using synthetic spectra at different latitudes and for different atmospheric temperature profiles and cloud parameters. VIRTIS and PMV retrieval result comparisons are used to determine constraints on physical state parameter variations, especially on applicability of different cloud models. An analytically parameterized initial model of four-modal cloud altitude distributions is proposed. Together with retrieved cloud parameters, which encompass individual mode factors and cloud upper altitude boundary, it permits optimum fits of measured radiances and brightness temperatures in the 4.3 and 15 µm CO2 bands utilized for atmospheric temperature profile retrievals. A new multi-spectrum retrieval (MSR) method provides deep atmosphere CO2 opacity correction parameters, which affect cloud parameter retrievals from short-wavelength emission windows. The main features of retrieved latitude and altitude-dependent temperature fields (zonal averages) are in good quantitative accordance with earlier obtained results. Prominent structures like ‘cold collar’ and ‘hot dipole’ are re-examined. The cold inversion layer is centered at about 62–66 km and 55 and 75°N. Below the collar, temperature usually decreases with latitude at the same altitude, while it typically increases toward the pole above 70 km. Absolute temperature differences between zonal averages of VIRTIS and PMV results are usually below 3 K between 58 and 80 km, while a 9 K lower VIRTIS temperature is only observed at 75°N near 60 km. Both VIRTIS and PMV retrievals reveal a slow decrease of cloud top altitude from about 71 km at the equator to about 70 km at mid latitudes. Northward of 55°N, it quickly descends down to about 61.5 km at polar latitudes in accordance with earlier results. Cloud particle size and total cloud optical depth exhibit a minimum at 50°N and increase towards the equator and the North Pole. The hemispheric average of cloud opacity derived from VIRTIS data is 34.7 at 1 µm.
format Other Non-Article Part of Journal/Newspaper
author Haus, Rainer
Kappel, David
Arnold, Gabriele
author_facet Haus, Rainer
Kappel, David
Arnold, Gabriele
author_sort Haus, Rainer
title Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements
title_short Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements
title_full Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements
title_fullStr Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements
title_full_unstemmed Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements
title_sort self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of venus using virtis/vex and pmv/venera-15 radiation measurements
publisher Elsevier
publishDate 2013
url http://elib.dlr.de/87166/
http://elib.dlr.de/87166/1/Haus%20et%20al.%202013_Planetary%20Space%20Science.pdf
https://doi.org/10.1016/j.pss.2013.09.020
long_lat ENVELOPE(-57.842,-57.842,-61.925,-61.925)
ENVELOPE(155.572,155.572,63.961,63.961)
geographic North Pole
Venus
Venera
geographic_facet North Pole
Venus
Venera
genre North Pole
genre_facet North Pole
op_relation http://elib.dlr.de/87166/1/Haus%20et%20al.%202013_Planetary%20Space%20Science.pdf
Haus, Rainer und Kappel, David und Arnold, Gabriele (2013) Self-consistent retrieval of temperature profiles and cloud structure in the northern hemisphere of Venus using VIRTIS/VEX and PMV/VENERA-15 radiation measurements. Planetary and Space Science, 89, Seiten 77-101. Elsevier. DOI:10.1016/j.pss.2013.09.020. ISSN 0032-0633.
op_doi https://doi.org/10.1016/j.pss.2013.09.020
container_title Planetary and Space Science
container_volume 89
container_start_page 77
op_container_end_page 101
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