The Man Behind the Kepler Mission –“Re-imagining the Possibilities for Life in the Milky Way”

 

 

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William Borucki's service at NASA's Ames Research Center in Moffett Field, California, culminated with the development and launch of NASA's first mission to detect Earth-size planets around other stars in the habitable zone — the range of distances from the host star where liquid water might exist on the surface of an orbiting planet. Since its launch in March 2009, Kepler has made scientists and enthusiasts alike re-imagine the possibilities for life in the galaxy.


After a career spanning 53 years and championing a mission deemed impossible for decades, Borucki, the principal investigator of NASA's planet-hunting Kepler mission, will retire from the agency on July 3.

“Bill’s unique leadership, vision, and research tenacity has and will continue to inspire scientists around the world,” said John Grunsfeld, astronaut and head of the NASA Science Mission Directorate at the agency’s headquarters in Washington. “He retires on such a high note that he leaves a legacy of inquiry that will not only be celebrated, it will be remembered as opening a new chapter in the history of science and the human imagination."

Kepler has shown that most stars have planets and that small planets like Earth are common in our Milky Way galaxy. This result has rewritten textbooks and has revised our understanding of our place in the cosmos, and was made possible through the sheer determination of Borucki and fellow team members.

In a lesson for science dreamers and future principal investigators, it took five proposals spanning a decade for Borucki and colleagues to prove the efficacy of transit photometry for discovering Earth-size planets around sun-like stars.

 

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The first proposal in 1992 was rejected because suitable detector technology was believed to be unavailable. In 1994, concerns over the cost of the mission resulted in the second proposal rejected.

In 1995, support for Borucki and the team came in the form of the first discovery of an exoplanet around a star like our sun. This discovery proved the suitability of current detector technology. The third proposal in 1996 was met with rejection as the technique of automatically observing and measuring thousands of stars simultaneously had never been done before, and observations such as Kepler was proposing could be risky.

 

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In response to this concern, the team built an observatory at the Crocker Dome at Lick Observatory on Mount Hamilton, east of San Jose, California. Using a specially designed telescope, called Vulcan, the team demonstrated thousands of stars could be measured simultaneously.

After a rejection in 1998 due to concerns of the instrument's ability to perform in the harsh environment of space, Borucki and colleagues built a test-bed facility to demonstrate Kepler's design stability and sensitivity. With the final concerns addressed, the mission once deemed impossible was accepted in 2000.

"Those were joyful days of hard-earned celebration to be sure, but Bill wasn't one to pat himself on the back. The qualities that kept him moving forward in the face of rejection were the same qualities that kept him focused on the job ahead," said Natalie Batalha, Kepler mission scientist at Ames. "To me, Bill embodied the essence of NASA — the childlike spirit of discovery, the tireless work ethic, and the playful tinkering and risk-taking that leads to bold innovation."

Acknowledging Kepler's achievements, Borucki was recently awarded the esteemed Shaw Prize in Astronomy 2015 for conceiving and leading the Kepler mission, which greatly advanced knowledge of both extrasolar planetary systems and stellar interiors. This $1 million award capstone is on top of recognition from U.S. President Obama and many prestigious national space and science foundations.

During the first 10 years of Borucki's career, he worked on the challenge of getting astronauts to the moon and safely returning them to Earth. He conducted laboratory and theoretical studies of the radiation environment of vehicles reentering Earth's atmosphere. The results of the investigations were used in the design of the heat shields for the Apollo program.

After the successful moon landings, Borucki spent the next 12 years studying Earth's atmosphere and lightning activity in planetary atmospheres. He developed models of Earth’s atmosphere that estimated the changes in Earth’s ozone layer. He also built a lab facility to produce lightning discharges in simulated atmospheres of Jupiter, Venus and Titan.

In 1983, Borucki began working on what would be approved 17 years later as Kepler with its selection as the 10th Discovery class mission.

The Daily Galaxy via NASA/Kepler

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