MarsNews.com
June 13th, 2023

20 years of Mars Express: Mars as never seen before

A new mosaic of Mars marks 20 years since the launch of ESA’s Mars Express, and reveals the planet’s colour and composition in spectacular detail.

The mosaic was created using data from Mars Express’s High Resolution Stereo Camera (HRSC).

HRSC normally photographs Mars’s surface from an altitude of about 300 km – the closest the spacecraft gets to Mars in its elliptical orbit – with the resulting images covering areas about 50 km across. However, the mosaic presented here uses a slightly different approach. To view the planet more widely, HRSC gathered 90 images at higher altitudes (of 4000 to 10 000 km), thus capturing areas of around 2500 km wide. These images were then put together to form a full global view.

Such large-scale images are typically obtained to observe weather patterns on Mars – but even in the absence of atmospheric phenomena they offer wonderful views of the planet’s surface.

 

December 17th, 2021

A one-way phone call at Mars

ESA Mars Express relays data from CNSA Zhurong rover

Landers and rovers on Mars gather data that help scientists answer fundamental questions about the geology, atmosphere, surface environment, history of water and potential for life on the Red Planet.

To get these insights to Earth, they first transmit the data up to spacecraft in orbit around Mars. These orbiters then use their much larger, more powerful transmitters to ‘relay’ the data across space to Earth.

“Normally, an orbiter like ESA’s Mars Express first sends down a hail signal to a rover as a ‘hello’,” says James Godfrey, Mars Express Spacecraft Operations Manager.

“The rover then sends back a response to establish stable communications and begin the two-way exchange of information. But this relies on the rover’s radio system being compatible with the orbiter’s.”

As Mars Express transmits its ‘hello’ signal using communication frequencies that are different from those the Chinese Zhurong Mars rover receives, two-way communication is not possible.

But in the other direction, Zhurong can transmit a signal using a frequency that Mars Express can receive.

The relay radio on Mars Express has a mode that allows this one-way communication – communication ‘in the blind’ where the sender can’t be sure if their signal is being received – but until now, the technique hadn’t been tested on the spacecraft.

December 16th, 2021

ExoMars discovers hidden water in Mars’ Grand Canyon

Mars Express took snapshots of Candor Chasma, a valley in the northern part of Valles Marineris, as it was in orbit above the region on 6 July 2006.
ESA/DLR/FU Berlin (G. Neukum), CC BY-SA 3.0 IGO

The ESA-Roscosmos ExoMars Trace Gas Orbiter has spotted significant amounts of water at the heart of Mars’ dramatic canyon system, Valles Marineris.

The water, which is hidden beneath Mars’ surface, was found by the Trace Gas Orbiter (TGO)’s FREND instrument, which is mapping the hydrogen – a measure of water content – in the uppermost metre of Mars’ soil.

While water is known to exist on Mars, most is found in the planet’s cold polar regions as ice. Water ice is not found exposed at the surface near the equator, as temperatures here are not cold enough for exposed water ice to be stable.

Missions including ESA’s Mars Express have hunted for near-surface water – as ice covering dust grains in the soil, or locked up in minerals – at lower latitudes of Mars, and found small amounts. However, such studies have only explored the very surface of the planet; deeper water stores could exist, covered by dust.

“With TGO we can look down to one metre below this dusty layer and see what’s really going on below Mars’ surface – and, crucially, locate water-rich ‘oases’ that couldn’t be detected with previous instruments,” says Igor Mitrofanov of the Space Research Institute of the Russian Academy of Sciences in Moscow, Russia; lead author of the new study; and principal investigator of the FREND (Fine Resolution Epithermal Neutron Detector) neutron telescope.

“FREND revealed an area with an unusually large amount of hydrogen in the colossal Valles Marineris canyon system: assuming the hydrogen we see is bound into water molecules, as much as 40% of the near-surface material in this region appears to be water.”

The water-rich area is about the size of the Netherlands and overlaps with the deep valleys of Candor Chaos, part of the canyon system considered promising in our hunt for water on Mars.

December 9th, 2021

ESA’s Mars Express unravels mystery of martian moon using ‘fake’ flybys

Infographic: ‘Fake’ flybys help solve Phobos mystery

By performing a series of real and ‘fake’ flybys, ESA’s Mars Express has revealed how Mars’ largest moon, Phobos, interacts with the solar wind of charged particles thrown out by the Sun – and spotted an elusive process that has only been seen at Phobos once before.

The solar wind streams out from our star, filling the Solar System with energetic particles. Earth’s Moon reflects these particles continuously, and the same ‘backscattering’ is expected at Mars’ moon Phobos given the similarities between the two (both are rocky, lack a magnetic field and atmosphere, and orbit terrestrial planets in the inner Solar System). However, ESA’s Mars Express has only seen this backscattering once (in 2008), despite coming close to Phobos many times.

Researchers now report the second successful detection of reflected solar wind particles at Phobos, spotted during a flyby of the moon in January 2016.

February 24th, 2020

NASA’s InSight Lander Detects Hundreds of ‘Marsquakes,’ Proving Mars is Seismically Active

This view of Cerberus Fossae, created using stereo data collected by the European Space Agency’s Mars Express spacecraft, shows fault cracks cutting across the Red Planet. New data released from NASA’s InSight lander show this region is still active today. (Credit: ESA/DLR/FU Berlin)

Not far from Mars’ equator, a series of strange fissures rip deep into the Red Planet’s surface. The cracks of Cerberus Fossae run for hundreds of miles, cutting through craters, hills and everything in their path. Relatively young-looking volcanoes nearby, combined with trails of tumbling rocks, have long fueled speculation over whether the region is still active today.

Now, there’s no need to wonder anymore. In a series of papers published Monday in the journals Nature Geoscience and Nature Communications, scientists released the first 10 months of discoveries from NASA’s Mars InSight lander. Its findings, among many others, include a resounding answer to the mystery of Cerberus Fossae — the Red Planet is geologically active and bustles with marsquakes.

The InSight lander was designed to study martian seismology, geophysics, meteorology and magnetism. It carries the first working seismometer and first magnetometer to ever land on the Red Planet’s surface. And while InSight’s lack of wheels might bring fewer news headlines than a rover like Curiosity, astronomers say its findings will ultimately help them better understand the geological processes that have shaped our neighboring world.

August 27th, 2019

Mars Missions Stop in Their Tracks as Red Planet Drifts to the Far Side of Sun

This animation illustrates Mars solar conjunction, a period when Mars is on the opposite side of the Sun from Earth. During this time, the Sun can interrupt radio transmissions to spacecraft on and around the Red Planet. Credit: NASA/JPL-Caltech

All of NASA’s spacecraft on Mars are about to find themselves on their own, running simplified routines and cut off from their masters on Earth. That’s because something big is about to come between the two planets — an electromagnetic energy source that’s too powerful to broadcast through or around: the sun.

During this period, known as the Mars solar conjunction, our home star and its corona pass between Earth and the Red Planet. Some radio signals might still get through, according to a statement from NASA’s Jet Propulsion Laboratory (JPL), but they aren’t reliable. Fortunately for all those distant robots, NASA knows this happens every couple years, and the machines are well prepared for the coming quiet period.

“Our engineers have been preparing our spacecraft for conjunction for months,” Roy Gladden, manager of the Mars Relay Network, said in the statement. “They’ll still be collecting science data at Mars, and some will attempt to send that data home. But we won’t be commanding the spacecraft out of concern that they could act on a corrupted command.”

April 10th, 2019

Largest dust storm on Mars ever recorded may reveal why it’s so dry

A dust storm on Mars photographed by the European Space Agency’s Mars Express
SA/Roscosmos/CaSSIS, CC BY-SA 3.0 IGO

Dust storms on Mars aren’t all about dust — they’re also full of water. A satellite orbiting Mars has taken the most detailed measurements yet of how these rare events trap water at lower altitudes, which may help reveal what happened to the water that used to be abundant on the Red Planet.

In 2018, the largest recorded dust storm circled the entire Martian globe, so thick that it hid the surface from the sun and killed the Opportunity rover. The ExoMars Trace Gas Orbiter watched this cataclysmic storm from orbit. Just before sunset and just after sunrise on Mars, it examined the atmosphere to determine how the dust storm absorbed sunlight.

Ann Carine Vandaele at the Royal Belgian Institute for Space Aeronomy and her colleagues used this data to determine how water was behaving in the storm. They found that just before the storm, there were water ice clouds in the atmosphere, but no water vapour more than 40 kilometres above the surface. This changed a few days later when water vapour appeared at altitudes of 40 and 80 kilometres, seemingly replacing the water ice clouds.

April 1st, 2019

Mars Express matches methane spike measured by Curiosity

Mars Express results ESA/Giuranna et al (2019)

A reanalysis of data collected by ESA’s Mars Express during the first 20 months of NASA’s Curiosity mission found one case of correlated methane detection, the first time an in-situ measurement has been independently confirmed from orbit.

Reports of methane in the martian atmosphere have been intensely debated, with Mars Express contributing one of the first measurements from orbit in 2004, shortly after its arrival at the Red Planet.

The molecule attracts such attention because on Earth methane is generated by living organisms, as well as geological processes. Because it can be destroyed quickly by atmospheric processes, any detection of the molecule in the martian atmosphere means it must have been released relatively recently – even if the methane itself was produced millions or billions of years ago and lay trapped in underground reservoirs until now.

While spacecraft and telescopic observations from Earth have in general reported no or very low detections of methane, or measurements right at the limit of the instruments’ capabilities, a handful of spurious spikes, along with Curiosity’s reported seasonal variation at its location in Gale Crater, raise the exciting question of how it is being generated and destroyed in present times.

Now, for the first time, a strong signal measured by the Curiosity rover on 15 June 2013 is backed up by an independent observation by the Planetary Fourier Spectrometer (PFS) onboard Mars Express the next day, as the spacecraft flew over Gale Crater.

February 28th, 2019

First Evidence of Planet-Wide Groundwater System On Mars

Evolution of water-filled basins over time

Mars Express has revealed the first geological evidence of a system of ancient interconnected lakes that once lay deep beneath the Red Planet’s surface, five of which may contain minerals crucial to life.

Mars appears to be an arid world, but its surface shows compelling signs that large amounts of water once existed across the planet. We see features that would have needed water to form – branching flow channels and valleys, for example – and just last year Mars Express detected a pool of liquid water beneath the planet’s south pole.

A new study now reveals the extent of underground water on ancient Mars that was previously only predicted by models.

“Early Mars was a watery world, but as the planet’s climate changed this water retreated below the surface to form pools and ‘groundwater’,” says lead author Francesco Salese of Utrecht University, the Netherlands.

“We traced this water in our study, as its scale and role is a matter of debate, and we found the first geological evidence of a planet-wide groundwater system on Mars.”

December 21st, 2018

Mars Express gets festive: A winter wonderland on Mars

Perspective view of Korolev crater. ESA/DLR/FU Berlin

This image shows what appears to be a large patch of fresh, untrodden snow – a dream for any lover of the holiday season. However, it’s a little too distant for a last-minute winter getaway: this feature, known as Korolev crater, is found on Mars, and is shown here in beautiful detail as seen by Mars Express.

ESA’s Mars Express mission launched on 2 June 2003, and reached Mars six months later. The satellite fired its main engine and entered orbit around the Red Planet on 25 December, making this month the 15-year anniversary of the spacecraft’s orbit insertion and the beginning of its science programme.

These images are an excellent celebration of such a milestone. Taken by the Mars Express High Resolution Stereo Camera (HRSC), this view of Korolev crater comprises five different ‘strips’ that have been combined to form a single image, with each strip gathered over a different orbit. The crater is also shown in perspective, context, and topographic views, all of which offer a more complete view of the terrain in and around the crater.

Buy Shrooms Online Best Magic Mushroom Gummies
Best Amanita Muscaria Gummies