Add to ORKGImages of Venus taken in spectral bands centered at 418 (violet) and 986 (NIR) nanometers show that the morphology and motions of large-scale features change with depth into the cloud deck. Equatorial zonal velocities of 101+-1 m.sec -1 are seen in the violet and 78+-2m.sec -1 in the NIR. Poleward meridional velocities are seen in both spectral regions but are much reduced in the NIR. Inthe south polar region the dominant markings in the two wavelength bands are strongly anticorrelated, while in the equatorial region the motion of a large-scale meridional NIR feature appears to be associated with the equatorial wave (Venus "horizontal" Y) feature seen in the violet. The images follow the changing state of the upper cloud layer d...
Since the discovery of ultraviolet markings on Venus, their observations have been a powerful tool t...
Characterizing the wind speeds of Venus and their variability at multiple vertical levels is essenti...
We present zonal and meridional wind measurements at three altitude levels within the cloud layers o...
Images of Venus taken at 418 (violet) and 986 [near-infrared (NIR)] nanometers show that the morpho...
Three images of Venus have been returned so far by the Galileo spacecraft following an encounter wit...
At the cloud top level of Venus (65-70 km altitude) the atmosphere rotates 60 times faster than the ...
Abstract Venus is covered with thick clouds. Ultraviolet (UV) images at 0.3–0.4 microns show detaile...
Near-infrared images of the Venus night side show bright contrast features that move from east to we...
International audienceGeographic distribution of zonal wind and UV albedo at cloud top level from VM...
Venus is completely covered by a thick cloud layer, of which the upper part is composed of sulphuric...
For more than 8 years the Venus Monitoring Camera (VMC) onboard the Venus Express orbiter performed ...
The Venus Monitoring Camera (VMC) on Venus Express (VEX) spacecraft has been observing the upper clo...
International audienceBased on the analysis of UV images (at 365 nm) of Venus cloud top (altitude 67...
Since the discovery of ultraviolet markings on Venus, their observations have been a powerful tool t...
Characterizing the wind speeds of Venus and their variability at multiple vertical levels is essenti...
We present zonal and meridional wind measurements at three altitude levels within the cloud layers o...
Images of Venus taken at 418 (violet) and 986 [near-infrared (NIR)] nanometers show that the morpho...
Three images of Venus have been returned so far by the Galileo spacecraft following an encounter wit...
At the cloud top level of Venus (65-70 km altitude) the atmosphere rotates 60 times faster than the ...
Abstract Venus is covered with thick clouds. Ultraviolet (UV) images at 0.3–0.4 microns show detaile...
Near-infrared images of the Venus night side show bright contrast features that move from east to we...
International audienceGeographic distribution of zonal wind and UV albedo at cloud top level from VM...
Venus is completely covered by a thick cloud layer, of which the upper part is composed of sulphuric...
For more than 8 years the Venus Monitoring Camera (VMC) onboard the Venus Express orbiter performed ...
The Venus Monitoring Camera (VMC) on Venus Express (VEX) spacecraft has been observing the upper clo...
International audienceBased on the analysis of UV images (at 365 nm) of Venus cloud top (altitude 67...
Since the discovery of ultraviolet markings on Venus, their observations have been a powerful tool t...
Characterizing the wind speeds of Venus and their variability at multiple vertical levels is essenti...
We present zonal and meridional wind measurements at three altitude levels within the cloud layers o...