Giant planets found in the stellar suburbs

Planetary census illuminates where giant planets tend to reside relative to their stars

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Recent findings from the California Legacy Survey, in which hundreds of stars and planets were surveyed, reveal that giant planets around other stars tend to orbit between 1 and 10 astronomical units (AU) from their stars. (Image credit: California Legacy Survey/T. Pyle/Caltech/IPAC)
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Lick Observatory’s Automated Planet Finder (above) and Shane Telescope (below) were used in the California Legacy Survey to conduct an exoplanet census. (Photos by Laurie Hatch)
photo of Shane Telescope

In the neighborhood that makes up our solar system, the giant planets—Jupiter and Saturn—reside in the chilly outer regions, while smaller planets tend to orbit closer to the sun. Our planet Earth lives in an intermediate tropical zone well-suited to life. Planet hunters have long-wondered: Is this same type of planetary configuration common around other stars throughout our galaxy or are we unique?

The best way to find out is to do a census of the planetary denizens of the galaxy. Astronomers began such a census, called the California Legacy Survey, over three decades ago, and are now releasing a new batch of results. The project involves researchers at multiple institutions, including the University of California, California Institute of Technology, and University of Hawaii, and primarily uses three telescopes: The W. M. Keck Observatory atop Maunakea in Hawaii, and the Shane and Automated Planet Finder telescopes, both at Lick Observatory.

“We are very proud of the heritage of planet hunting which grew up around Lick Observatory and the Hamilton Spectrograph on the Shane telescope,” said Matthew Shetrone, deputy director of UC Observatories (UCO).

As the state of the art for exoplanet detection evolved, UCO brought new instruments to bear on the study of planets beyond our solar system, such as the fully robotic Automated Planet Finder at Lick Observatory and HIRES on the Keck Telescope. At the focus of these telescopes are the spectrographs, all of which were designed and built by Steve Vogt, professor emeritus of astronomy and astrophysics at UC Santa Cruz.

“We have seen entire generations of planet-hunting students come up through the UC system, such as Debra Fisher and Howard Isaacson,” Shetrone said. “The discovery of those first planets outside our solar system has launched an entire field of study, astrobiology, and nearly every UC campus has faculty in this exciting new field.

One pattern to emerge from the California Legacy Survey data is that giant planets tend to reside about 1 to 10 astronomical units (AU) from their host stars, a mostly icy region located beyond the temperate zone of a star. (An AU is defined as the distance from Earth to our sun, or about 93 million miles.) This is similar to what we see in our own solar system: Earth orbits at 1 AU; Jupiter is situated at about 5 AU and Saturn at 9 AU.

“We're starting to see patterns in other planetary systems that make our solar system look a bit more familiar,” said Caltech professor of astronomy Andrew Howard.

In our solar system, we also have planets that are a bit smaller than Jupiter and Saturn, Uranus and Neptune, which are located out beyond Saturn. The California Legacy Survey is not sensitive to planets in that size range and at that distance.

“While we can't detect smaller planets similar to Neptune and Uranus that are very distant from their stars, we can infer that the large gas giants like Jupiter and Saturn are extremely rare in the outermost regions of most exoplanetary systems,” explained BJ Fulton, a staff scientist at Caltech's IPAC astronomy center.

The new research is reported in two articles accepted for publication in the Astrophysical Journal Supplement. UC Santa Cruz graduate student Molly Kosiarek is a coauthor of both papers. Caltech graduate student Lee Rosenthal is lead author of one study, and Fulton is lead author of the second paper.

In the early days of planet hunting, back in the late 1990s and early 2000s, it was not clear whether planets that orbit other stars, called exoplanets, were lined up in a similar fashion to our solar system, with small rocky planets in the interior and giant planets in the outer regions, or if the opposite may be true. In fact, evidence began to accumulate that exoplanets did not share our same architecture as more and more giant, blistering planets, known as "hot Jupiters," were discovered orbiting very closely to their stars.

Because hot Jupiters whip tightly around their stars, and because they are massive, they can be easily detected using the radial velocity planet-hunting method, in which the "wobble" of a star is detected as a planet circles around and tugs on the star, pulling it back and forth.

To obtain a more complete picture of other star systems, astronomers needed more time. The outer planets take much longer journeys around their stars; just one tug on a star can last decades. For reference, Jupiter laps our sun every 12 years, while Saturn ambles along at an even slower pace and completes one orbit every 29 years.

That is where the California Legacy Survey comes in. It has been observing 719 sun-like stars for more than three decades, and as such, is the longest-duration exoplanet survey to date. Among the stars searched in the project, 177 planets were found, including 14 that are newly discovered. The planets have masses between one-hundredth and 20 times the mass of Jupiter (or between about 3 and 6,000 Earth masses). As of now, ground-based telescopes are not sensitive enough to detect planets the mass of Earth or smaller.

One pattern to emerge is the tendency for giant planets to reside between 1 and 10 AU from their star. While the team's data does not fully cover regions beyond 10 AU, because those planets require even more than three decades to complete an orbit, they say that they can make inferences based on the partial orbits observed thus far.

The team plans to continue to search their census data for new patterns and clues to help understand the characteristics and formation of other star systems, as well as our own solar system. They are also looking forward to next-generation surveys.

"This survey is a great jumping-off point for future instruments that are sensitive to planets the size of Earth," said Howard, who is leading one such instrument, the Keck Planet Finder, expected to be shipped to Keck in Hawaii in 2022.

The California Legacy Survey is funded and supported by Caltech, the University of California, the University of Hawaii, Tennessee State University, NASA, the National Science Foundation, the NASA Exoplanet Science Institute, Google, and Ken and Gloria Levy.