MessageToEagle.com - A team of Penn State University astronomers has obtained very precise measurements of a
pair of stars that are orbited by a planet -- like the stellar system of the fictional planet Tatooine in the movie Star Wars.
The orbits of the stars and planet in the system, named Kepler-16, are aligned so that they eclipse or transit each other
when observed from Earth. These new measurements will aid astronomers in understanding how stars and planetary systems form.
The Penn State astronomers used the spectroscopic capabilities of the
Hobby-Eberly Telescope at McDonald Observatory to
separate the light from the two Kepler-16 stars into individual wavelengths, which allowed them to precisely measure the
masses of the stars.
This system was discovered in 2011 by NASA's Kepler spacecraft, and was the first "eclipsing binary"
star system conclusively shown to host a planet orbiting two stars.
The Penn State measurements are among the most precise ever made for low mass stars like those in Kepler-16,
and also provide an important independent test of a sophisticated new technique for measuring masses from Kepler spacecraft data.
"Precise measurements of stellar masses, radii, and system architectures provide important insights into how
planets form," said the leader of the Penn State team, Center for Exoplanets and Habitable Worlds Postdoctoral
Fellow Chad Bender.
NASA's Kepler spacecraft is continuously monitoring the brightness of about 150,000 stars in order to search for
Earth-mass planets. In 2011, a Kepler science team lead by Laurance Doyle at the SETI Institute combined precise
timing of the Kepler-16 eclipses with a new sophisticated modeling technique to derive the masses of the two stars, which are
about 70 percent and 20 percent that of the Sun, and of the orbiting planet.
The technique also has been applied to several similar systems.
In the case of close binary stars, such as Kepler-16, light from the individual stars is blended together.
An artist's conception of the Kepler-16 system, shown during one of it's transit events. The larger star, with
mass about 70 percent that of the Sun, contributes most of the total light from the system. The smaller star, with
mass about 20 percent that of the Sun, contributes only 3 percent of the light. The planet is thought to be a gas
giant, with mass roughly equal to that of Neptune. Credit: NASA/JPL-Caltech/R. Hurt
"While the Kepler-16 modeling did provide a solid estimate of the masses of the stars, we wanted to separate the
light from each star so they could be studied individually," said Assistant Professor of Astronomy Jason Wright, a member
of the research team.
The spectroscopy obtained by the Penn State researchers facilitates this disentangling, and yields
the masses of the stars with a much simpler analysis.
"As the two Kepler-16 stars move in their 41-day orbit, their velocity relative to the Earth periodically changes, and we
were able to track these motions by obtaining six high-resolution-spectroscopic observations with the Hobby-Eberly Telescope,"
said co-investigator and Assistant Professor of Astronomy and Astrophysics Suvrath Mahadevan.
Hobby-Eberly Telescope
HET was designed and constructed with a unique objective: to gather a very large amount of light, specifically
for spectroscopy, at extremely low cost. Credits: University of Texas
The team used these data to disentangle the light from the individual stars, which was a challenge because the star
Kepler-16B contributes only about 3 percent of the total light from the system.
"The resulting velocity measurements, combined with Kepler's Laws of Motion, directly give the masses of stars
Kepler-16A and Kepler-16B with precisions of 2.5 percent and 1.5 percent, respectively," Mahadevan said.
"These mass measurements are among the most precise that have been made for low-mass stars," said Bender.
"Models that describe the formation and evolution of stars and planets have improved considerably over the past
decade, but making additional improvements requires new measurements of numerous stars with the precisions that
we have achieved here."
In addition, the Penn State results confirm the viability of the new technique originally used by the Kepler team,
through completely independent data and a completely different analysis technique.
"Understanding the radii and masses of low-mass stars such as these is critical for the search for planets in
habitable zones," Mahadevan said. The Kepler-16 measurements are the initial results from a much larger survey
being led by Penn State to measure precise masses of more than 100 eclipsing binary stars discovered by Kepler.
"The Kepler mission is revealing at least as much about Sun-like and low-mass stars as it is about planets;
it's really revolutionizing the field of stellar astrophysics," noted Wright.
"These observations illustrate how measurements with the Hobby-Eberly Telescope and other ground-based telescopes
amplify and extend the fantastic science Kepler is doing, and can teach us more about these stars and the planets that orbit them."
In addition to Bender, Mahadevan, and Wright, other members of the Penn State Kepler-16 team include Associate
Professor Steinn Sigurdsson, Distinguished Senior Scholar and Professor Larry Ramsey, Distinguished Professor
Donald Schneider, Postdoctoral Scholars Rohit Deshpande and Scott Fleming, and Graduate Students Arpita Roy
and Ryan Terrien. All are members of the Penn State Department of Astronomy and Astrophysics and the Penn
State Center for Exoplanets and Habitable Worlds.
The Hobby-Eberly Telescope is a joint project of the University of Texas at Austin, Penn State University,
Stanford University, Ludwig-Maximilians-Universitat Munchen, and Georg-August-Universitat Gottingen.
A preprint of the paper is online at http://arxiv.org/abs/1205.0259
and research is published in the 1 June issue of the Astrophysical Journal Letters.
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