Alycia J. Weinberger

Alycia J. Weinberger is a staff member at the Carnegie Institution of Washington. She is considered an observational astronomer and her focus is in planet formation, exoplanets, and brown dwarfs. She examines early development of planets and their interactions with surrounding circumstellar disk. Before joining the Carnegie scientific staff in 2001, she was a Near Infrared Camera and Multi-Object Spectrometer (NICMOS) postdoctoral researcher and astrobiology postdoctoral fellow at University of California, Los Angeles (UCLA). She received her B.A. in Physics from the University of Pennsylvania and her PhD from Caltech. In 1991, she was recognized by the Phi Beta Kappa. She is the 2000 winner of the Annie J. Cannon Award in Astronomy and the Vainu Bappu Gold Medal of Astronomical Society of India for 2000 (awarded 2002). In 2019 she was selected to become a fellow of the American Astronomical Society. Dr Weinberger has worked at the Carnegie Science Earth and Planets Labretory since 2001 and was promoted to Associate Division Director in 2023. She was a full time staff scientist there for 24 years before she became promoted, and has been in this position ever since.

Weinberger studies the formation of planets, using observational methods such as ultra-high spatial-resolution imaging using advanced instrumentation on the ground and in space including the Hubble Space Telescope. Her research focuses on disks surrounding nearby stars in order to understand the conditions for the birth of new planets.

In 2013, Weinberger was part of a research team of astronomers from around the globe who discovered exoplanet HD 106906 b. This discovery was notable due to the planet’s distance away from its host star, which raised questions and ideas about the formation of planets.

Alycia Weinberger, among a team of astronomers published their work in The Astrophysical Journal about their new discovery. They found a forming planet around a young star called TW Hydrae. The TW Hydrae, approximately 10 million years old, is found in the Hydra constellation and is constituted of a disk of dust and gaz in rotation, in which small planets are born. This young star may have given astronomers an insight of how Earth and the planets of the Solar system may have looked 4.6 billion years ago, during its formation. It is the nearest planet to be observed which is also one of the most distant planetary mass companions that has ever been directly observed and is projectedly closer to the binary system HD 106906 at a distance of about 650 astronomical units (AU), over 20 times greater than the distance between Neptune and the Sun. This is because of its extreme orbit which is opposite to classical core accretion theories of planet formation which suggest giant planets to be formed nearer to their stars where the proto planetary disk is richer has led astronomers to consider other possibilities such as gravitational instability or dynamical scattering by the inner system.

In 2025, Weinberger contributed to the Proxima Centauri flare study using the Atacama Large Millimeter/submillimeter Array (ALMA), examining how stellar flares may affect exoplanet habitability.