NASA Returning To 'Lost Habitable' World Of Venus by Alana Johnson and Karen Fox, NASA
July 21, 2021
NASA has selected two new missions to
Venus, Earth’s nearest planetary neighbor. Part of NASA’s Discovery
Program, the missions aim to understand how Venus became an
inferno-like world when it has so many other characteristics similar
to ours ... and may have been the first habitable world in the solar
system, complete with an ocean and Earth-like climate.
Venus hides a wealth of information that could help us better understand Earth and exoplanets. NASA's JPL is designing mission concepts to survive the planet's extreme temperatures and atmospheric pressure. This image is a composite of data from NASA's Magellan spacecraft and Pioneer Venus Orbiter.
(NASA image by JPL-Caltech)
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These investigations are the final
selections from four mission concepts NASA picked in February 2020
as part of the agency’s Discovery 2019 competition. Following a
competitive, peer-review process, the two missions were chosen based
on their potential scientific value and the feasibility of their
development plans. The project teams will now work to finalize their
requirements, designs, and development plans.
NASA is
awarding approximately $500 million per mission for development.
Each is expected to launch in the 2028-2030 timeframe.
The
selected missions are:
DAVINCI+ (Deep Atmosphere Venus
Investigation of Noble gases, Chemistry, and Imaging)
DAVINCI+ will measure the composition of Venus’ atmosphere to
understand how it formed and evolved, as well as determine whether
the planet ever had an ocean. The mission consists of a descent
sphere that will plunge through the planet’s thick atmosphere,
making precise measurements of noble gases and other elements to
understand why Venus’ atmosphere is a runaway hothouse compared the
Earth’s.
In addition, DAVINCI+ will return the first high
resolution pictures of the unique geological features on Venus known
as “tesserae,” which may be comparable to Earth’s continents,
suggesting that Venus has plate tectonics. This would be the first
U.S.-led mission to Venus’ atmosphere since 1978, and the results
from DAVINCI+ could reshape our understanding of terrestrial planet
formation in our solar system and beyond. James Garvin of Goddard
Space Flight Center in Greenbelt, Maryland, is the principal
investigator. Goddard provides project management.
VERITAS
(Venus Emissivity, Radio Science, InSAR, Topography, and
Spectroscopy)
VERITAS will map Venus’ surface to determine
the planet’s geologic history and understand why it developed so
differently than Earth. Orbiting Venus with a synthetic aperture
radar, VERITAS will chart surface elevations over nearly the entire
planet to create 3D reconstructions of topography and confirm
whether processes such as plate tectonics and volcanism are still
active on Venus.
VERITAS also will map infrared emissions
from Venus’ surface to map its rock type, which is largely unknown,
and determine whether active volcanoes are releasing water vapor
into the atmosphere. Suzanne Smrekar of NASA’s Jet Propulsion
Laboratory in Southern California, is the principal investigator.
JPL provides project management. The German Aerospace Center will
provide the infrared mapper with the Italian Space Agency and
France’s Centre National d'Etudes Spatiales contributing to the
radar and other parts of the mission.
“We’re revving up our
planetary science program with intense exploration of a world that
NASA hasn’t visited in over 30 years,” said Thomas Zurbuchen, NASA’s
associate administrator for science. “Using cutting-edge
technologies that NASA has developed and refined over many years of
missions and technology programs, we’re ushering in a new decade of
Venus to understand how an Earth-like planet can become a hothouse.
Our goals are profound. It is not just understanding the evolution
of planets and habitability in our own solar system, but extending
beyond these boundaries to exoplanets, an exciting and emerging area
of research for NASA.”
Zurbuchen added that he expects
powerful synergies across NASA’s science programs, including the
James Webb Space Telescope. He anticipates data from these missions
will be used by the broadest possible cross section of the
scientific community.
“It is astounding how little we know
about Venus, but the combined results of these missions will tell us
about the planet from the clouds in its sky through the volcanoes on
its surface all the way down to its very core,” said Tom Wagner,
NASA’s Discovery Program scientist. “It will be as if we have
rediscovered the planet.”
In addition to the two missions,
NASA selected a pair of technology demonstrations to fly along with
them. VERITAS will host the Deep Space Atomic Clock-2, built by JPL
and funded by NASA’s Space Technology Mission Directorate. The
ultra-precise clock signal generated with this technology will
ultimately help enable autonomous spacecraft maneuvers and enhance
radio science observations.
DAVINCI+ will host the Compact
Ultraviolet to Visible Imaging Spectrometer (CUVIS) built by
Goddard. CUVIS will make high resolution measurements of ultraviolet
light using a new instrument based on freeform optics. These
observations will be used to determine the nature of the unknown
ultraviolet absorber in Venus’ atmosphere that absorbs up to half
the incoming solar energy.
Established in 1992, NASA’s
Discovery Program has supported the development and implementation
of over 20 missions and instruments. These selections are part of
the ninth Discovery Program competition.
The concepts were
chosen from proposals submitted in 2019 under NASA Announcement of
Opportunity NNH19ZDA010O. The selected investigations will be
managed by the Planetary Missions Program Office at NASA’s Marshall
Space Flight Center in Huntsville, Alabama, as part of the Discovery
Program.
The Discovery Program conducts space
science investigations in the Planetary Science Division of NASA’s
Science Mission Directorate. The goals of the program are to provide
frequent opportunities for principal investigator-led investigations
in planetary sciences that can be accomplished under a not-to-exceed
cost cap.
More
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National Aeronautics and Space Administration
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