New project to probe how planets lose their atmospheres
Scientists on a new project led by 蜜糖直播 Boulder will develop 鈥渨orlds in a box鈥 to study the conditions that might make far away planets habitable.
The research is part of NASA鈥檚 (ICAR) program. Recently, the space agency to pursue explorations in the realm of astrobiology, the study of life beyond Earth.
David Brain, professor in the (LASP) and Department of Astrophysical and Planetary Sciences (APS), will lead one of those teams. The $5 million effort will investigate over five years the phenomenon of atmospheric escape鈥攈ow some planets, like Earth, hold onto their atmospheres while others, like Mars, don鈥檛.
鈥淚 have been interested in atmospheric escape from Mars for a very long time as a potential explanation for the evidence that liquid water once resided on the surface of that planet,鈥 Brain said. 鈥淚t was possible billions of years ago, but it鈥檚 not possible today.鈥
He explained that billions of years ago, vast oceans of water likely covered much of the surface of Mars. Today, liquid water can鈥檛 exist on the planet鈥檚 surface, largely because its modern-day atmosphere is more than 100 times thinner than Earth鈥檚. Recent research points to an explanation: Data from NASA鈥檚 (MAVEN) spacecraft, which was designed and built at LASP, have shown that radiation from the sun is slowly stripping away Mars鈥 atmosphere.
Brain and his colleagues want to learn more about why that might happen to some planets and not others. In the new project, he and his colleagues will use computer simulations, or models, to create a motley crew of digital worlds鈥攖hen test how their atmospheres behave around a series of different stars. He hopes that the team鈥檚 research will help astrophysicists identify worlds light-years from Earth that could, potentially, support thriving communities of living organisms.
鈥淥ur models are kind of like worlds in a box,鈥 Brain said. 鈥淲e can put a telescope in that box and figure out what we might see if we were observing that planet from far away.鈥
Planets galore
The research builds on decades of study delving into the impacts of stars on planetary atmospheres, said Daniel Baker, director of LASP.
鈥淐omparative planetary studies have been a great strength of LASP for decades,鈥 he said. 鈥淭his exciting new interdisciplinary research will help scientists understand why some planets keep their atmospheres, increasing the likelihood that they could be habitable.鈥
For Brain and his colleagues, one of the biggest question marks surrounding atmospheric escape may be magnetic fields.
He explained that scientists have long assumed that planets need strong magnetic fields to be able to maintain thick atmospheres. Earth, for example, harbors such a magnetic field, which is what makes the needles on compasses point north. This field also creates a sort of protective shell around the planet, called a 鈥渕agnetosphere,鈥 that may help to prevent Earth鈥檚 nitrogen-rich atmosphere from flying off into space. Mars, meanwhile, doesn鈥檛 have the same protection.
鈥淒o habitable worlds require magnetic fields? It's something that we all blindly assumed 25 years ago when I was in graduate school,鈥 Brain said. 鈥淏ut recently that鈥檚 been called into question.鈥
The new project aims to find out. The researchers will use models to build a planetary toy box of sorts. They will draw on a complex series of equations to represent different kinds of planets, capturing the physics of their upper atmospheres. Then the team will place those possible worlds into orbit around an equally diverse set of suns. What would happen to Mars, for example, if it orbited a small but volatile red dwarf star like the nearby Proxima Centauri? How would Earth fare around a supergiant star like Betelgeuse?
For now, Brain isn鈥檛 sure what the team will find. He suspects that whether a planet can hang onto its atmosphere hinges on a wide range of factors鈥攖he presence of a magnetic field, yes, but also a planet鈥檚 size and whether its atmosphere is dominated by carbon dioxide, like on Mars, or hydrogen, like on Jupiter.
鈥淚 think the answer is going to be: It depends,鈥 he said.