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Related: About this forumHR 8799e: A New Level of Exoplanet Imaging
by PAUL GILSTER on APRIL 4, 2019
A method for enhanced exoplanet investigation takes center stage today as we look at the GRAVITY instrument, a near-infrared tool aided by adaptive optics that brings new precision to exoplanet imaging. In operation at the European Southern Observatorys Very Large Telescope Interferometer (VLTI) at Paranal Observatory in Chile, GRAVITY works with the combined light of multiple telescopes to produce what would otherwise take a single telescope with a mirror diameter of 100 meters to equal. The early demonstrator target is exoplanet HR 8799e.
The method at work is interferometry, and here we are applying it to a super Jupiter, more massive and much younger (at 30 million years) than any planet in our Solar System. The GRAVITY observations of this target mark the first time that optical interferometry has been used to study an exoplanet at this level of precision, producing a highly detailed spectrum. The planet is part of a 5-planet system some 130 light years away, all 5 of the planets being gas giants between 5 and 10 times the mass of Jupiter.
Image: This wide-field image shows the surroundings of the young star HR
8799 in the constellation of Pegasus. This picture was created from material
forming part of the Digitized Sky Survey 2. Credit: ESO/Digitized Sky
Survey 2. Acknowledgement: Davide de Martin.
The high resolution images that resulted from this work show what we can expect from optical interferometry going forward. We now know the distance between HR8799e and its star with 10 times the accuracy of previous estimates, which in turn helps to refine the planets orbit, one that appears to be slightly inclined compared to the orbital plane of its four companions.
That high-grade spectrum has spoken volumes about the composition of the planets atmosphere, says team leader Sylvestre Lacour (Observatoire de Paris and the Max Planck Institute for Extraterrestrial Physics):
More:
https://www.centauri-dreams.org/2019/04/04/hr-8799e-a-new-level-of-exoplanet-imaging/?utm_source=feedburner&utm_medium=feed&utm_campaign=Feed%3A+centauri-dreams%2Feepu+%28Centauri+Dreams%29
Science:
https://www.democraticunderground.com/122863354
PoindexterOglethorpe
(25,917 posts)I have a son in a PhD program in astronomy, doing exoplanet research. He's working with a method called radial velocity, and a couple of weeks ago was in Switzerland at a conference for exactly that.
I pay attention to anything at all connected to exoplanet research.
Judi Lynn
(160,655 posts)Wonderful he has found a field he has such deep interest in, and there's so much to learn ahead. Seems unlimited, doesn't it?
Such a completely rare specialty, too. It seems he would never be bored, with such total change coming each day of his life in his career.
Thanks!
PoindexterOglethorpe
(25,917 posts)He had several bumps along the way with his academic career, and is now 36, which is a bit old for a PhD student in his field. However, he looks a lot younger, and I doubt his advisor even knows that my son is only 3 or 4 years younger than he is. Plus, on his father's side, they all lived well into their 90's, so he will have a long career.
He's a very solitary person and probably will never marry or have any kind of relationship, which is okay because he's happy the way he is, and can spend this lifetime concentrating on his learning and research.
Judi Lynn
(160,655 posts)No doubt deeply brilliant people do share a purity of purpose, a vision which separates them from people with less direction.
There are so many people who would admire his focus, and devotion to science as very important.
It's wonderful knowing there are people like that living, working, learning in our world now. Following the crowd doesn't bring change.