The polar atmosphere of Venus is thinner than expected. How do we know? Because ESA’s Venus Express has actually been there. Instead of looking from orbit, Venus Express has flown through the upper reaches of the planet’s poisonous atmosphere.
Venus Express went diving into the alien atmosphere during a series of low passes in July-August 2008, October 2009, and February and April 2010. The aim was to measure the density of the upper polar atmosphere, an experiment that had never been attempted before at Venus.
The campaign has returned 10 measurements so far and shown that the atmosphere high above the poles is a surprising 60% thinner than predicted. This could indicate that unanticipated natural processes are at work in the atmosphere. A team led by Ingo Mueller-Wodarg of Imperial College, London, are currently investigating.
The density is critical information for mission controllers, who are investigating the possibility of driving the spacecraft even lower into the atmosphere in order to change its orbit and extend the lifetime of the mission.
“It would be dangerous to send the spacecraft deep into the atmosphere before we understand the density,” says team member Pascal Rosenblatt, Royal Observatory of Belgium.
The fact that Venus Express can make these measurements at all is remarkable. The spacecraft was not designed for it and so does not have instruments capable of directly sampling the atmosphere. Instead, radio tracking stations on Earth watch for the drag on the spacecraft as it dips into the atmosphere and is decelerated by the Venusian equivalent of air resistance.
In addition, operators at ESA’s ESOC in Darmstadt, Germany, turned one solar wing edge-on and the other face-on so that air resistance would twist the spacecraft.
Venus’ atmosphere extends from the surface up to an altitude of around 250 km. During April, Venus Express briefly skimmed down to 175 km above the planetary surface.
As well as the surprisingly low density overall, the twisting of the spacecraft has also registered a sharp density change from the day to the night side of the planet. Next week, Venus Express will go diving again, this time lowering itself to 165 km.
These measurements will be used eventually to help make changes to the orbit of Venus Express, halving the time it takes to circle the planet and providing new opportunities for additional scientific measurements.
The current elliptical orbit takes 24 hours to complete and loops from 250 km to 66,000 km. When Venus Express is far away from the planet, it is pulled off course slightly by the Sun’s gravity. So, every 40-50 days, its engines must be fired to compensate. The fuel to do this will run out in 2015 unless the orbit can be lowered using the drag of Venus’s atmosphere to slow the spacecraft. It is a delicate, potentially dangerous operation and cannot be rushed.
“The timetable is still open because a number of studies have yet to be completed,” says Hakan Svedhem, ESA Project Scientist Venus Express. “If our experiments show we can carry out these maneuvers safely, then we may be able to lower the orbit in early 2012.”
In the meantime, Venus Express may be feeling it’s all a bit of a drag, but the science teams involved are happier than ever with their new data. “We couldn’t see this region with our instruments because the atmosphere was too thin to register, but now we are sampling it directly,” says Dr. Mueller-Wodarg.
Media Contact:
Sanjay S. Limaye
DPS Press Officer
+1 608 262 9541
dpspress@aas.org
Science Contacts:
Hakan Svedhem
ESA Project Scientist, Venus Express
h.svedhem@esa.int
Ingo Mueller-Wodarg
Imperial College London
+44 (0)7973 271 816
i.mueller-wodarg@imperial.ac.uk
Pascal Rosenblatt
Royal Observatory of Belgium
+32 2 373 67 30
pascal.rosenblatt@oma.be