Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010

In December 2010 the last campaign of the German-Norwegian sounding rocket project ECOMA (Existence and Charge state Of Meteoric smoke particles in the middle Atmosphere) was conducted from Andøya Rocket Range in northern Norway (69° N, 16° E) in connection with the Geminid meteor shower. The main i...

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Main Authors: Hedin, J., Rapp, M., Khaplanov, M., Stegman, J., Witt, G.
Format: Article in Journal/Newspaper
Language:English
Published: München : European Geopyhsical Union 2012
Subjects:
530
Online Access:https://doi.org/10.34657/1616
https://oa.tib.eu/renate/handle/123456789/4030
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spelling ftleibnizopen:oai:oai.leibnizopen.de:ZRN2DYsBBwLIz6xGYOC2 2023-11-05T03:32:07+01:00 Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010 Hedin, J. Rapp, M. Khaplanov, M. Stegman, J. Witt, G. 2012 application/pdf https://doi.org/10.34657/1616 https://oa.tib.eu/renate/handle/123456789/4030 eng eng München : European Geopyhsical Union CC BY 3.0 Unported https://creativecommons.org/licenses/by/3.0/ Annales Geophysicae, Volume 30, Issue 11, Page 1611-1621 atmospheric chemistry aurora electron density ionization mesosphere nightglow nitric oxide observational method photometer quantitative analysis smoke thermosphere uncertainty analysis 530 article Text 2012 ftleibnizopen https://doi.org/10.34657/1616 2023-10-08T23:17:15Z In December 2010 the last campaign of the German-Norwegian sounding rocket project ECOMA (Existence and Charge state Of Meteoric smoke particles in the middle Atmosphere) was conducted from Andøya Rocket Range in northern Norway (69° N, 16° E) in connection with the Geminid meteor shower. The main instrument on board the rocket payloads was the ECOMA detector for studying meteoric smoke particles (MSPs) by active photoionization and subsequent detection of the produced charges (particles and photoelectrons). In addition to photoionizing MSPs, the energy of the emitted photons from the ECOMA flash-lamp is high enough to also photoionize nitric oxide (NO). Thus, around the peak of the NO layer, at and above the main MSP layer, photoelectrons produced by the photoionization of NO are expected to contribute to, or even dominate above the main MSP-layer, the total measured photoelectron current. Among the other instruments on board was a set of two photometers to study the O2 (b1Σg+−X3Σg) Atmospheric band and NO2 continuum nightglow emissions. In the absence of auroral emissions, these two nightglow features can be used together to infer NO number densities. This will provide a way to quantify the contribution of NO photoelectrons to the photoelectron current measured by the ECOMA instrument and, above the MSP layer, a simultaneous measurement of NO with two different and independent techniques. This work is still on-going due to the uncertainties, especially in the effort to quantitatively infer NO densities from the ECOMA photoelectron current, and the lack of simultaneous measurements of temperature and density for the photometric study. In this paper we describe these two techniques to infer NO densities and discuss the uncertainties. The peak NO number density inferred from the two photometers on ascent was 3.9 × 108 cm−3 at an altitude of about 99 km, while the concentration inferred from the ECOMA photoelectron measurement at this altitude was a factor of 5 smaller. publishedVersion Article in Journal/Newspaper Andøya Northern Norway LeibnizOpen (The Leibniz Association)
institution Open Polar
collection LeibnizOpen (The Leibniz Association)
op_collection_id ftleibnizopen
language English
topic atmospheric chemistry
aurora
electron density
ionization
mesosphere
nightglow
nitric oxide
observational method
photometer
quantitative analysis
smoke
thermosphere
uncertainty analysis
530
spellingShingle atmospheric chemistry
aurora
electron density
ionization
mesosphere
nightglow
nitric oxide
observational method
photometer
quantitative analysis
smoke
thermosphere
uncertainty analysis
530
Hedin, J.
Rapp, M.
Khaplanov, M.
Stegman, J.
Witt, G.
Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010
topic_facet atmospheric chemistry
aurora
electron density
ionization
mesosphere
nightglow
nitric oxide
observational method
photometer
quantitative analysis
smoke
thermosphere
uncertainty analysis
530
description In December 2010 the last campaign of the German-Norwegian sounding rocket project ECOMA (Existence and Charge state Of Meteoric smoke particles in the middle Atmosphere) was conducted from Andøya Rocket Range in northern Norway (69° N, 16° E) in connection with the Geminid meteor shower. The main instrument on board the rocket payloads was the ECOMA detector for studying meteoric smoke particles (MSPs) by active photoionization and subsequent detection of the produced charges (particles and photoelectrons). In addition to photoionizing MSPs, the energy of the emitted photons from the ECOMA flash-lamp is high enough to also photoionize nitric oxide (NO). Thus, around the peak of the NO layer, at and above the main MSP layer, photoelectrons produced by the photoionization of NO are expected to contribute to, or even dominate above the main MSP-layer, the total measured photoelectron current. Among the other instruments on board was a set of two photometers to study the O2 (b1Σg+−X3Σg) Atmospheric band and NO2 continuum nightglow emissions. In the absence of auroral emissions, these two nightglow features can be used together to infer NO number densities. This will provide a way to quantify the contribution of NO photoelectrons to the photoelectron current measured by the ECOMA instrument and, above the MSP layer, a simultaneous measurement of NO with two different and independent techniques. This work is still on-going due to the uncertainties, especially in the effort to quantitatively infer NO densities from the ECOMA photoelectron current, and the lack of simultaneous measurements of temperature and density for the photometric study. In this paper we describe these two techniques to infer NO densities and discuss the uncertainties. The peak NO number density inferred from the two photometers on ascent was 3.9 × 108 cm−3 at an altitude of about 99 km, while the concentration inferred from the ECOMA photoelectron measurement at this altitude was a factor of 5 smaller. publishedVersion
format Article in Journal/Newspaper
author Hedin, J.
Rapp, M.
Khaplanov, M.
Stegman, J.
Witt, G.
author_facet Hedin, J.
Rapp, M.
Khaplanov, M.
Stegman, J.
Witt, G.
author_sort Hedin, J.
title Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010
title_short Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010
title_full Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010
title_fullStr Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010
title_full_unstemmed Observations of NO in the upper mesosphere and lower thermosphere during ECOMA 2010
title_sort observations of no in the upper mesosphere and lower thermosphere during ecoma 2010
publisher München : European Geopyhsical Union
publishDate 2012
url https://doi.org/10.34657/1616
https://oa.tib.eu/renate/handle/123456789/4030
genre Andøya
Northern Norway
genre_facet Andøya
Northern Norway
op_source Annales Geophysicae, Volume 30, Issue 11, Page 1611-1621
op_rights CC BY 3.0 Unported
https://creativecommons.org/licenses/by/3.0/
op_doi https://doi.org/10.34657/1616
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