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MARSIS fully deployed
Science & Exploration

Mars Express radar collects first surface data

05/08/2005 1655 views 1 likes
ESA / Science & Exploration / Space Science / Mars Express

ESA PR 38-2005. MARSIS, the sounding radar on board ESA’s Mars Express spacecraft, is collecting the first data about the surface and the ionosphere of Mars.

The radar started its science operations on 4 July 2005, after the first phase of its commissioning was concluded on the same day. Due to the late deployment of MARSIS, it was decided to split the commissioning, originally planned to last four weeks, into two phases, one of which has just ended and the second one to be started by December this year.

This has given the instrument the chance to start scientific observations earlier than initially foreseen, while still in the Martian night. This is the environmental condition favourable to subsurface sounding, because the ionosphere is more ‘energised’ during the daytime and disturbs the radio signals used for subsurface observations.

From the beginning of the commissioning, the two 20-metre long antenna booms have been sending radio signals towards the Martian surface and receiving echoes back. “The commissioning phase confirmed that the radar is working very well, and that it can be operated at full power without interfering with any of the spacecraft systems,” says Roberto Seu, Instrument Manager for MARSIS, from the University of Rome ‘La Sapienza’, Italy.

An excellent test

MARSIS is a very complex instrument, capable of operating at different frequency bands. Lower frequencies are best suited to probe the subsurface and the highest frequencies are used to probe shallow subsurface depths, while all frequencies are suited to study the surface and the upper atmospheric layer of Mars.

“During the commissioning we have worked to test all transmission modes and optimise the radar performance around Mars,” says Prof. Giovanni Picardi, Principal Investigator for MARSIS, University of Rome ‘La Sapienza’. “The result is that since we have started the scientific observations in early July, we are receiving very clean surface echoes back, and first indication about the ionosphere.”

The MARSIS radar is designed to operate around the orbit ‘pericentre’, when the spacecraft is closer to the planet’s surface. In each orbit, the radar has been switched on for 36 minutes around this point, dedicating the central 26 minutes to subsurface observations and the first and last five minutes of the slot to active ionosphere sounding.

Using the lower frequencies, MARSIS has been mainly investigating on the northern flat areas between 30° and 70° latitudes, at all longitudes. “We are very satisfied about the way the radar is performing. In fact, the surface measurements taken so far match almost perfectly with the existing models of the Mars topography,” said Prof. Picardi. Thus, these measurements provided an excellent test.

The scientific reason to concentrate the first data analysis on flat regions lies in the fact that the subsurface layers here are in principle easier to identify, but the question is still tricky. “As the radar is appearing to work so well for the surface, we have good reasons to think that the radio waves are correctly propagating also below the surface,” added Prof. Picardi.

“The biggest part of our work just started, as we now have to be sure that we clearly identify and isolate those echoes that come from the subsurface. To do this, we have to carefully screen all data and make sure that signals that could be interpreted as coming from different underground layers are not actually produced by surface irregularities. This will keep us occupied for a few more weeks at least.”

Interesting preliminary findings

The first ionospheric measurements performed by MARSIS have also revealed some interesting preliminary findings. The radar responds directly to the number of charged particles composing the ionosphere (plasma). This has shown to be higher than expected at times.

“We are now analysing the data to find out if such measurements may result from sudden increases of solar activity, like the one observed on 14 July, or if we have to make new hypotheses. Only further analysis of the data can tell us,” said Jeffrey Plaut, Co-Principal Investigator, from NASA Jet Propulsion Laboratory, Pasadena, USA.

MARSIS will continue send signals to hit the surface and penetrate the subsurface until the middle of August, when the nighttime portion of the observations will have almost ended. After that, observation priority will be given to other Mars Express instruments that are best suited to work during daytime, such as the HRSC camera and the OMEGA mapping spectrometer.

However, MARSIS will continue surface and ionospheric investigations during daytime, with the ionospheric sounding being reserved for more than 20% percent of all Mars Express orbits, in all possible Sun illumination conditions.

In December 2005, the Mars Express orbit pericentre will enter the nighttime again. By then, the pericentre will have moved closer to the South pole, allowing MARSIS to restart optimal probing of the subsurface, this time in the southern hemisphere.

Notes to editors:

The first phase of the commissioning was dedicated to testing the MARSIS electronics and software, and the two 20-metre long antennas (dipole). The second phase of the commissioning, to be performed in December 2005 and due to last about ten days, will be dedicated to the calibration of the 7-metre ‘monopole’ antenna.

This antenna is to be used in conjunction with the MARSIS dipole, to correct any surface roughness effects caused by the radio waves emitted by the dipole and being reflected by an irregular surface. The monopole will find its best use during the investigations of areas where the surface roughness is higher.

The MARSIS instrument was developed within the framework of a Memorandum of Understanding between the Italian Space Agency (ASI) and NASA. It was developed by Alenia Spazio under ASI management and the scientific supervision of the University of Rome ‘La Sapienza’, in partnership with the Jet Propulsion Laboratory (JPL) in Pasadena, California, and the University of Iowa. JPL provided the antenna manufactured by Astro Aerospace. It is the first instrument designed to actually look below the surface of Mars.

Its major goals are to characterise the subsurface layers of sediments and possibly detect underground water or ice, to conduct large-scale altimetry mapping and provide data on the planet’s ionosphere.

For subsurface probing, MARSIS must operate between 300 and 800 kilometres from the Martian surface, while for ionospheric sounding, MARSIS has already provided acceptable results from a distance of up to 3000 kilometres. The radar vertical resolution is about 150 metres (in the free space), while the horizontal resolution, in the range of few kilometres, depends on the spacecraft altitude.

The Italian-American MARSIS team is also largely involved on the SHARAD radar, a facility instrument provided by ASI for NASA’s Mars Reconnaissance Orbiter (MRO), due for launch in August 2005. MARSIS and SHARAD are two radars designed to provide complementary information about the Martian subsurface. MARSIS can penetrate to an average depth of five kilometres, while SHARAD will concentrate on layers closer to the surface.

For more information:

ESA Media Relations Office
Paris, France
Tel: +33(0)15369 7155
Fax: +33(0)1 5369 7690

Giovanni Picardi, MARSIS Principal Investigator, INFOCOM Dept., Universita’ di Roma 'La Sapienza'
E-mail: picar @

Jeff Plaut, MARSIS Co-Principal Investigator, NASA/JPL
E-mail: plaut @

Roberto Seu, MARSIS Instrument Manager and SHARAD Team Leader, INFOCOM Dept., Universita’ di Roma 'La Sapienza'
E-mail: roberto.seu @

Agustin Chicarro, ESA Mars Express Project Scientist
E-mail: agustin.chicarro @

Fred Jansen, ESA Mars Express Mission Manager
E-mail: fjansen @

Enrico Flamini, ASI Programme Manager for Italian contribution to Mars Express
E-mail: Enrico.Flamini @

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