An artistic representation of Gliese 1132b, a planet  orbiting a red dwarf star.

Gliese 1132b is a planet 39 light years away, slightly larger than Earth and circling a red dwarf star—could life survive on such a world?

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Please note: This event has been canceled.

In response to the latest COVID-19 guidelines and information from local and state public health authorities, we have decided to temporarily close the Academy to the public, effective 5:00 pm March 12. At this time, this closure will continue through March 31. All ticketed events, lectures, workshops, and classes will be canceled or postponed. For the latest updates from the Academy, please visit lehilender.com/covid19.

Are Red Dwarf Planets Habitable?
Monday, April 6, 7:30 pm
Morrison Planetarium

bet36体育在线真的吗Featuring Professor Gibor Basri, University of California

bet36体育在线真的吗The most common stars in the Universe are red dwarfs. These are small, faint, cool stars that range from one-tenth to one-half the diameter of the Sun and which have extraordinarily-long lifetimes. Recent surveys have discovered Earth-size planets around several red dwarf stars, including Proxima Centauri (the nearest star to the Sun). What might conditions be like on worlds orbiting such unusual stars, and could any of them be habitable? Have any been identified as "best candidates" to consider as abodes for life?

About Gibor Basri

Gibor Basri, UC Berkeley Astronomy Department

As a boy, Gibor Basri loved reading science fiction and dreaming of traveling to the stars. In the eighth grade, he wrote a report on astronomy as a career, concluding that it was a small, competitive field, and he decided to pursue his fatherʼs field, physics. Still, he enjoyed this area most when it was related to astronomy, and even though he considered applying to become an astronaut, he realized that rather than wait perhaps years to be assigned to a spaceflight, he could “visit” the stars through his research whenever he wanted.

A full professor at UC Berkeley since 1994, Dr. Basriʼs work focuses on star formation, stellar activity, and low-mass stellar-class objects. He is a pioneer in the study of brown dwarfs (“failed stars” or substellar objects) and participated in their discovery in 1995. He was also a co-investigator for NASAʼs planet-seeking Kepler spacecraft.

He never forgot his love of science fiction—one of the classes he taught at Berkeley was called “The Science in Science Fiction.”

Dr. Basri is a Fellow of the California Academy of Sciences.

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