The near-infrared nitric oxide nightglow in the upper atmosphere of Venus

Muñoz, A. García; Mills, F. P.; Piccioni, G.; Drossart, P.

doi:10.1073/pnas.0808091106

Cited by 49 publications

(14 citation statements)

References 41 publications

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“…Emission from the C 2 P (v = 0) ! A 2 S (v = 0) transition at 1.224 mm was recently observed with the Visible and Infrared Thermal Imaging Spectrometer (VIRTIS) -M in the Venus nightglow [García Muñoz et al, 2009]. The N and O atoms are mainly produced by dissociation of N 2 and CO 2 on the dayside by extreme ultraviolet (EUV) photons and photoelectrons.…”

Section: Introductionmentioning

confidence: 95%

“…The emission is produced by radiative recombination through inverse predissociation of nitrogen N( 4 S) and oxygen O( 3 P) atoms and dominates the middle ultraviolet nightglow spectrum. In this process, excited NO molecules radiate the ultraviolet δ and γ bands between 180 and 310 nm: giving rise to Emission from the C 2 Π (v = 0) → A 2 Σ (v = 0) transition at 1.224 μ m was recently observed with the Visible and Infrared Thermal Imaging Spectrometer (VIRTIS) ‐M in the Venus nightglow [ García Muñoz et al , 2009]. The N and O atoms are mainly produced by dissociation of N 2 and CO 2 on the dayside by extreme ultraviolet (EUV) photons and photoelectrons.…”

Section: Introductionmentioning

confidence: 99%

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Concurrent observations of the ultraviolet nitric oxide and infrared O₂ nightglow emissions with Venus Express

Gérard¹,

Cox²,

Soret³

et al. 2009

J. Geophys. Res.

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[1] Two prominent features of the Venus nightside airglow are the nitric oxide d and g bands produced by radiative association of O and N atoms in the lower thermosphere and the O 2 infrared emission generated by three-body recombination of oxygen atoms in the upper mesosphere. The O 2 airglow has been observed from the ground, during the Cassini flyby, and with VIRTIS on board Venus Express. It now appears that the global structure of the two emissions shows some similarities, but the statistical location of the region of strongest emission is not coincident. The Spectroscopy for Investigation of Characteristics of the Atmosphere of Venus (SPICAV) ultraviolet spectrograph has collected a large number of spectra of the Venus nitric oxide nightside airglow. Visible and Infrared Thermal Imaging Spectrometer (VIRTIS) images have been obtained at the limb and in the nadir-viewing mode and have provided new information on the horizontal and vertical distribution of the emission. We present the first concurrent observations of the two emissions observed with Venus Express. We show that nadir observations generally indicate a low degree of correlation between the two emissions observed quasi-simultaneously at a common location. A statistical study of limb profiles indicates that the altitude and the brightness of the two airglow layers generally do not covary. We suggest that this lack of correlation is explained by the presence of strong horizontal winds in the mesosphere-thermosphere transition region. They carry the downflowing atoms over large distances in such a way that regions of enhanced NO emission generally do not coincide with zones of bright O 2 airglow.

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Section: Introductionmentioning

confidence: 95%

Section: Introductionmentioning

confidence: 99%

Concurrent observations of the ultraviolet nitric oxide and infrared O₂ nightglow emissions with Venus Express

Gérard¹,

Cox²,

Soret³

et al. 2009

J. Geophys. Res.

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“…Some of the occurring reactions are exothermic and lead to excited state products that radiate in the form of nightglow. The list of gases contributing to the Venus nightglow includes O, O 2 , NO, and OH, which produce emission features throughout the ultraviolet, visible, and near-infrared spectrum [Connes et al, 1979;Feldman et al, 1979;García Muñoz et al, 2009a;Krasnopolsky et al, 1977;Piccioni et al, 2008;Slanger et al, 2001].…”

Section: Introductionmentioning

confidence: 99%

Limb imaging of the Venus O₂ visible nightglow with the Venus Monitoring Camera

Muñoz

Hueso

Sánchez‐Lavega

et al. 2013

Geophysical Research Letters

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We investigated the Venus O2 visible nightglow with imagery from the Venus Monitoring Camera on Venus Express. Drawing from data collected between April 2007 and January 2011, we study the global distribution of this emission, discovered in the late 1970s by the Venera 9 and 10 missions. The inferred limb‐viewing intensities are on the order of 150 kR at the lower latitudes and seem to drop somewhat toward the poles. The emission is generally stable, although there are episodes when the intensities rise up to 500 kR. We compare a set of Venus Monitoring Camera observations with coincident measurements of the O2 nightglow at 1.27 µm made with the Visible and Infrared Thermal Imaging Spectrometer, also on Venus Express. From the evidence gathered in this and past works, we suggest a direct correlation between the instantaneous emissions from the two O2 nightglow systems. Possible implications regarding the uncertain origin of the atomic oxygen green line at 557.7 nm are noted.

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“…Near‐infrared spectra collected with the Visible and Infrared Thermal Imaging Spectrometer (VIRTIS) on Venus Express have been found to contain the 0–0 and 0–1 bands of O 2 a – X , the 1–0, 2–1, 2–0 and 3–2 bands of OH X – X and the 0–0 band of NO C – A , all of them except the O 2 band at 1.27 μ m seen for the first time in the atmosphere of Venus [ Piccioni et al , 2008; García Muñoz et al , 2009]. In the present work, we extend the investigation of Venus' nightglow with VIRTIS to the visible wavelengths, where the O 2 c (0)– X ( v ″) progression appears as a prominent emission.…”

Section: Introductionmentioning

confidence: 99%

Visible and near‐infrared nightglow of molecular oxygen in the atmosphere of Venus

et al. 2009

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[1] The Herzberg II system of O 2 has been a known feature of Venus' nightglow since the Venera 9 and 10 orbiters detected its c(0)-X(v 00 ) progression more than 3 decades ago. We search for its emission at 400 nm-700 nm in spectra obtained with the VIRTIS instrument on Venus Express. Despite the weakness of the signal, integration over a few hours of limb observations of the planet's upper atmosphere reveals the unambiguous pattern of the progression. The selected data sample mainly the northern latitudes within a few hours of local midnight. The emission is ubiquitous on the nightside of Venus and can be discerned at tangent altitudes from 80 km to 110 km. The average emission vertical profiles of the c(0)-X(v 00 ) progression and the O 2 a(0)-X(0) band, the latter from simultaneous near-infrared spectra, are quite similar, with their respective peaks occurring within ±1 km of each other. We conclude that the net yield for production of the c(0) state is low, $1%-2% of the oxygen recombination rate, and that O( 3 P) and CO 2 are the two likely quenchers of the Herzberg II nightglow, although CO cannot be ruled out. We also derive a value of 2.45 Â 10 À16 cm 3 s À1 for the rate constant at which CO 2 collisionally quenches the c(0) state. Our VIRTIS spectra show hints of O 2 A 0 (0)-a(v 00 ) emission but no traces of the O ( 1 S-1 D) green line at 557.7 nm.

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The near-infrared nitric oxide nightglow in the upper atmosphere of Venus

Cited by 49 publications

References 41 publications

Concurrent observations of the ultraviolet nitric oxide and infrared O₂ nightglow emissions with Venus Express

Concurrent observations of the ultraviolet nitric oxide and infrared O₂ nightglow emissions with Venus Express

Limb imaging of the Venus O₂ visible nightglow with the Venus Monitoring Camera

Visible and near‐infrared nightglow of molecular oxygen in the atmosphere of Venus

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The near-infrared nitric oxide nightglow in the upper atmosphere of Venus

Cited by 49 publications

References 41 publications

Concurrent observations of the ultraviolet nitric oxide and infrared O2 nightglow emissions with Venus Express

Concurrent observations of the ultraviolet nitric oxide and infrared O2 nightglow emissions with Venus Express

Limb imaging of the Venus O2 visible nightglow with the Venus Monitoring Camera

Visible and near‐infrared nightglow of molecular oxygen in the atmosphere of Venus

Contact Info

Product

Resources

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Concurrent observations of the ultraviolet nitric oxide and infrared O₂ nightglow emissions with Venus Express

Concurrent observations of the ultraviolet nitric oxide and infrared O₂ nightglow emissions with Venus Express

Limb imaging of the Venus O₂ visible nightglow with the Venus Monitoring Camera