University of California, Davis, will be part of a new National Science Foundation Physics Frontier Center focusing on understanding the physics and astrophysical implications of matter under pressures so high that the structure of individual atoms is disrupted.
The Center for Matter at Atomic Pressures, or CMAP, will be funded with $12.96 million from the NSF and hosted at the University of Rochester in collaboration with researchers at 嘿嘿视频; the Massachusetts Institute of Technology; Princeton; UC Berkeley; the University of Buffalo; and Lawrence Livermore National Laboratory.
Physics Frontiers Centers are university-based centers funded by the NSF to enable transformational advances in the most promising research areas.
鈥淭his collaboration is focused on developing a new area of physics focused on the properties of matter under extreme pressures鈥 said , professor of earth and planetary sciences at 嘿嘿视频 and co-principal investigator on the project.
鈥淢ost of the work is motivated by the diversity of the interiors of planets, to understand their formation and evolution,鈥 said Stewart, who studies how planets formed and received a MacArthur Foundation grant in 2018 for her research on how celestial collisions give birth to planets.
Impetus for the project is twofold:
- First is a recent shift in how scientists think about extreme states of matter. It was previously believed, for example, that materials subjected to very high pressure, atomic scale pressure, would transition to simple densely packed metals. Now recent results suggest such extreme matter is complex and may have novel properties. Aluminum, for example, may transform from a simple metal to a transparent insulator, and hydrogen from a gas into a superconducting superfluid.
- Second is that thousands of planets, some of which may be platforms for life, have been discovered outside our solar system. To understand the nature of these massive bodies we need to understand their deep interior states, which are under the crushing forces of gravity.
CMAP will lead discoveries at the confluence of these two movements in science. The center will combine powerful lasers, pulsed-power and X-ray beam technology with first-principles theory and astrophysical interpretation concentrating on four main areas of fundamental research:
- How hydrogen and helium behave at extraordinary densities in the so-called 鈥済as giant鈥 planets, including Jupiter and Saturn in our own solar system, which could advance knowledge of how the solar system evolved.
- How other elements react at high densities, to understand the nature of terrestrial and water worlds in the universe, and how materials might be manipulated in laboratories on Earth to 鈥渉arness revolutionary properties.鈥
- The pathways of energy transport that enable the dramatic change in properties of material at high densities. This could shed light on topics ranging from the structure and evolution of planets and stars to refining inertial confinement fusion.
- The direct astrophysical implications of extreme matter properties, linking laboratory exploration of matter at atomic pressure with state-of-the-art models of astrophysical objects to better understand astronomical observations.
鈥淭he Physics Frontiers Centers program supports creative and interdisciplinary work at the frontiers of physics,鈥 said Jean Cottam Allen, the NSF program officer overseeing the centers. 鈥淩esearchers at the Center for Matter at Atomic Pressures are investigating a new frontier of matter at extreme pressures.鈥
Principal investigator is Gilbert 鈥淩ip鈥 Collins, the Tracy/Hyde Professor of Mechanical Engineering and Physics and Astronomy, and associate director of science, technology and academics at the Laboratory for Laser Energetics at the University of Rochester. Co-principal investigators, besides Stewart, are Sara Seager at MIT, Adam Burrows at Princeton and Raymond Jeanloz at UC Berkeley.
Senior investigators include Adam Frank and Pierre Gourdain from Rochester; Eva Zurek from the University of Buffalo; Burkhard Militzer from UC Berkeley; Tom Duffy from Princeton; Jon Eggert, Rick Kraus and Peter Cellers at Lawrence Livermore National Laboratory; and at Rochester, Eric Blackman and Ryan Rygg of the Department of Physics, Suxing Hu, Mohamed Zaghoo and Philip Nilson of the Laboratory for Laser Energetics, Jessica Shang and Hussein Aluie of the Department of Mechanical Engineering, and Miki Nakajima of the Department of Earth and Environmental Sciences.
Media Resources
Andy Fell, News and Media Relations, 530-752-4533, ahfell@ucdavis.edu
Sarah T. Stewart, Earth and Planetary Sciences, 530-794-8689, sts@ucdavis.edu