11月 23, 2024

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木星の弟の直接撮影

木星の弟の直接撮影


テキサス大学オースティン校のカイル・フランソン率いる天文学者チームは、W.M. ケック天文台を使用して、AF Lep b と名付けられた最も質量の低い惑星の 1 つを直接撮影した。 Astrophysical Journal Letters に掲載されたこの発見は、太陽に似た若い恒星の周りを周回する巨大惑星の検出に天文技術が初めて使用されたことを示しています。

科学者たちは、天文計測と呼ばれる技術を使用して、若い太陽のような恒星の周りを周回する最も質量の低い惑星の 1 つである AF Lep b を撮影しました。 この方法は、系外惑星、特に地球に対する距離、質量、向きのせいで検出が難しい系外惑星の発見方法に革命をもたらす可能性があります。

ハワイのマウナケアにある WM ケック天文台を使用している天文学者は、これまで直接撮影された中で最も質量の小さい惑星の 1 つを発見しました。 彼らはその質量を測定できるだけでなく、その軌道が太陽系の巨大惑星に似ていることを確認することもできました。

AF Lep b と名付けられたこの惑星は、天文計測と呼ばれる技術を使用して史上初めて発見された惑星の 1 つです。 この方法は、長年にわたって主星の微妙な動きを測定し、天文学者が惑星を含む目に見えにくい軌道を周回する伴星が重力で主星を引っ張っているかどうかを判断するのに役立ちます。

系外惑星AF Lep b

AF Lep b の Keck II 望遠鏡で撮影されたライブ画像。木星に似た質量と軌道を持つ系外惑星です。 クレジット: テキサス大学オースティン校/WM ケック天文台

テキサス大学オースティン校(UTオースティン)の天文学大学院生カイル・フランソン氏が主導したこの研究は、

“When we processed the observations using the Keck II telescope in real time to carefully remove the glare of the star, the planet immediately popped out and became increasingly apparent the longer we observed,” said Franson.

The direct images Franson’s team captured revealed that AF Lep b is about three times the mass of Jupiter and orbits AF Leporis, a young Sun-like star about 87.5 light-years away. They took a series of deep images of the planet starting in December 2021; two other teams also captured images of the same planet since then.

“This is the first time this method has been used to find a giant planet orbiting a young analog of the Sun,” said Brendan Bowler, an assistant professor of astronomy at UT Austin and senior author on the study. “This opens the door to using this approach as a new tool for exoplanet discovery.”

Movement of Extrasolar Planet AF Lep b

The movement of the extrasolar planet AF Lep b (white spot at about 10 o’clock) around its host star (center) can be seen in these two images taken in Dec. 2021 and Feb. 2023. Images were collected using the W. M. Keck Observatory’s 10-meter telescope in Hawaiʻi. Credit: Kyle Franson, University of Texas at Austin/W. M. Keck Observatory

Despite having a much smaller mass than its host star, an orbiting planet causes a star’s position to wobble slightly around the center of mass of the planetary system. Astrometry uses this shift in a star’s position on the sky relative to other stars to infer the existence of orbiting planets. Franson and Bowler identified the star AF Leporis as one that might harbor a planet, given the way it had moved during 25 years of observations from the Hipparcos and Gaia satellites.

To directly image the planet, the UT Austin team used Keck Observatory’s adaptive optics system, which corrects for fluctuations caused by turbulence in Earth’s atmosphere, paired with the Keck II Telescope’s Near-Infrared Camera 2 (NIRC2) Vector Vortex Coronagraph, which suppresses light from the host star so the planet could be seen more clearly. AF Lep b is about 10,000 times fainter than its host star and is located about 8 times the Earth-Sun distance.

Masses and Orbital Distances of All Extrasolar Planets

This chart shows the masses and orbital distances of all the extrasolar planets that have been directly imaged so far. Astronomers have confirmed the masses of five (marked with stars) and estimated the rest (dots). The newly imaged planet, AF Lep b (yellow star), has a mass and orbit that make it one of the most Jupiter-like extrasolar planets imaged so far. Credit: Brendan Bowler, University of Texas at Austin

“Imaging planets is challenging,” Franson said. “We only have about 15 examples, and we think this new ‘dynamically informed’ approach made possible by the Keck II telescope and NIRC2 adaptive optics imaging will be much more efficient compared to blind surveys which have been carried out for the past two decades.”

The two most common ways of finding extrasolar planets involve observing slight, periodic dimming of the starlight if a planet happens to regularly pass in front of the star— like a moth spiraling around a porch light — and measuring minute changes in the frequencies of starlight that result from the planet tugging the star back and forth along the direction to Earth. Both methods tend to work best with large planets orbiting close to their host stars, and both methods are indirect: we don’t see the planet, we only see how it influences the star.

The method of combining direct imaging with astrometry could help astronomers find extrasolar planets that were hard to find before with other methods because they were too far from their host star, were too low mass, or didn’t have orbits that were edge-on as seen from Earth. Another benefit of this technique is that it allows astronomers to directly measure a planet’s mass, which is difficult with other methods at wide orbital distances.

Bowler said the team plans to continue studying AF Lep b.

“This will be an excellent target to further characterize with the James Webb Space Telescope and the next generation of large ground-based telescopes like the Giant Magellan Telescope and the Thirty Meter Telescope,” Bowler said. “We’re already planning more sensitive follow-up efforts at longer wavelengths to study the physical properties and atmospheric chemistry of this planet.”

Reference: “Astrometric Accelerations as Dynamical Beacons: A Giant Planet Imaged inside the Debris Disk of the Young Star AF Lep” by Kyle Franson, Brendan P. Bowler, Yifan Zhou, Tim D. Pearce, Daniella C. Bardalez Gagliuffi, Lauren I. Biddle, Timothy D. Brandt, Justin R. Crepp, Trent J. Dupuy, Jacqueline Faherty, Rebecca Jensen-Clem, Marvin Morgan, Aniket Sanghi, Christopher A. Theissen, Quang H. Tran and Trevor N. Wolf, 22 June 2023, Astrophysical Journal Letters.
DOI: 10.3847/2041-8213/acd6f6

NASA Keck time is administered by the NASA Exoplanet Science Institute. Data presented herein were obtained at the W. M. Keck Observatory from telescope time allocated to the National Aeronautics and Space Administration through the agency’s scientific partnership with the California Institute of Technology and the University of California.

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