VERITAS (spacecraft)

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VERITAS
Veritas20150930.jpg
Veritas at Venus depiction (NASA)
Mission type Reconnaissance
Operator NASA's JPL
Mission duration 2 years (proposed)
Start of mission
Launch date 2021 (proposed)
Venus orbiter

VERITAS (Venus Emissivity, Radio Science, InSAR, Topography, and Spectroscopy) is a proposed mission concept by NASA's Jet Propulsion Laboratory (JPL) to map with high resolution the surface of planet Venus. The combination of surface topography and image data would provide knowledge of Venus' tectonic and impact history, the timing and mechanisms of volcanic resurfacing, and the mantle processes responsible for them.

Overview

This is an example of computer generated terrain of Venus, based on data from an orbiting radar imaging satellite. A new global data map would allow a comparison between the two to be made.
Size comparison of radar-mapped Venus surface and Earth

VERITAS was selected on 30 September 2015 as a semifinalist for Mission #13 of the Discovery Program.[1] The winner will be chosen around September 2016,[2] and must be ready to launch by the end of 2021.[3][4] Suzanne Smrekar of NASA's Jet Propulsion Laboratory (JPL) is the Principal Investigator, and JPL would manage the project.

Objectives

VERITAS would produce global, high resolution topography and imaging of Venus' surface and produce the first maps of deformation and global surface composition,[5] thermal emissivity, and gravity field.[6] It would also attempt to determine if Venus hosted ancient aqueous environments. Also, current data are highly suggestive of recent and active volcanism and this mission could determine if current volcanism is limited to mantle plume heads or is more widespread.[6]

High resolution imagery would be obtained by using an X band radar configured as a single pass interferometric synthetic aperture radar (InSAR)[7] coupled with a multispectral near-infrared (NIR) emissivity mapping capability. VERITAS would map surface topography with a spatial resolution of 250 m and 5 m vertical accuracy, and generate radar imagery with 30 m spatial resolution.[5]

Goals [7][8]
  1. understand Venus' geologic evolution
  2. determine what geologic processes are currently operating
  3. find evidence for past or present water

Scientific payload

The primary mission goals, accomplished by seven objectives, require two instruments and a gravity science investigation over a 2-year orbital mission.[8]

  • VEM (Venus Emissivity Mapper) maps surface emissivity using six spectral bands in five atmospheric windows that see through the clouds.[8] It would be provided by the German Aerospace Center (DLR)[9]
  • VISAR (Venus Interferometric Synthetic Aperture Radar) generates a DEM (digital elevation model) with an accuracy of 250 m horizontal by 5 m height.[7]

Gravity science is carried out using the spacecraft's telecom system. The mission design also enables the opportunity to send a nanosat probe into the atmosphere of Venus, carrying a mass spectrometer to sample the noble gases and their isotopes.[8] For the NASA AO, this fulfills the option for a TDO (technology demonstration option)[10] Called Cupid's arrow it would pack a quadrupole ion trap mass spectrometer into nanosat atmospheric "skimmer".[11]

See also

References

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External links