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Uros Seljak is one of Eight Berkeley faculty elected to National Academy of Sciences


The new National Academy of Sciences members are, clockwise from upper left, Martin Banks, Roger Falcone, Rebecca Heald, Uros Seljak, David Zilberman, Omar Yaghi, Scott Shenker and David Raulet.

In recognition of their outstanding achievements in original research, eight UC Berkeley faculty have been elected members of the National Academy of Sciences, one of the most distinguished scientific organizations in the country.

The newly elected researchers include a neuroscientist, two physicists, two cellular biologists, a computer scientist, a chemist and an economist, and bring the total number of living UC Berkeley faculty who are members of the academy to 135.

Martin Banks is a professor of optometry, vision science, neuroscience and psychology in the School of Optometry and the Helen Wills Neuroscience Institute. His research explores how humans use multiple senses to perceive the world around us and how this might affect our experience of 3D virtual environments.

Physics professor Roger Falcone uses X-rays to study how materials behave under extreme temperatures and pressures. He is an affiliated member of Berkeley’s Energy and Resources Group and Applied Science and Technology Program.

Rebecca Heald, professor of cell and molecular biology, studies extracts from frog eggs to understand the intricate mechanics behind cell division and to find what factors control how big cells grow.

David Raulet is Esther and Wendy Schekman Chair of Cancer Biology and professor in the Department of Molecular and Cell Biology. He investigates immune cells called natural killer cells, which identify and destroy infected and cancerous cells in the body, with the goal of designing new cancer immunotherapies.

Uros Seljak, professor of physics and astronomy, is co-director of the Berkeley Center for Cosmological Physics and a senior scientist at Lawrence Berkeley National Laboratory. His work uses observations of the cosmos to try to understand fundamental properties of the universe, including the nature of dark matter and dark energy and how the universe formed.

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