Short Description: Research shows how Mars lost its oceans
Research shows how Mars lost its oceans
Tokyo [Japan], February 9 : It is a well-known fact that Mars once had oceans in part due to a protective magnetic field similar to Earth's. The layer of ice on the cap of the planet says it all. However, the magnetic field disappeared, and a new research may finally be able to explain why.
Researchers at the University of Tokyo recreated conditions expected in the core of Mars billions of years ago and found that the behaviour of the molten metal thought to be present likely gave rise to a brief magnetic field that was destined to fade away.
Whether it's due to science fiction or the fact that we can see it with our own eyes from Earth, Mars has captured the imagination of people for centuries. It's one of the closest planets to us and has been studied with all manner of scientific instruments aboard the various unmanned space probes that have explored it and continue to do so. Yet, despite this, there are some big unanswered questions about Mars -- the answers to which could even shed light on our own distant past and future, given that Earth, Mars and all our neighbouring planets were born of the same cosmic stuff.
Some big questions about Mars have already been answered. For example, we know that many visible features of Mars are proof it used to have oceans and a protective magnetic field. But one question in particular had been on the mind of Professor Kei Hirose from the University of Tokyo's Department of Earth and Planetary Science: There must have been a magnetic field around Mars, so why was it there at all, and why was it there so briefly?
Compelled to answer this question, a team led by PhD student Shunpei Yokoo in the Hirose lab explored a novel way to test something so distant from us in both time and space.
"Earth's magnetic field is driven by inconceivably huge convection currents of molten metals in its core. Magnetic fields on other planets are thought to work the same way," said Hirose. "Though the internal composition of Mars is not yet known, evidence from meteorites suggests it is molten iron enriched with sulphur. Furthermore, seismic readings from NASA's InSight probe on the surface tell us Mars' core is larger and less dense than previously thought. These things imply the presence of additional lighter elements such as hydrogen. With this detail, we prepare iron alloys that we expect constitute the core and subject them to experiments."
( Details and picture courtesy ANI, the content is auto-generated from the feed.)
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