Peter Hintz


Peter Hintz is a German mathematician working in the areas of partial differential equations, microlocal analysis, scattering theory and general relativity. He is currently a professor of mathematics at Pennsylvania State University.

Education and career

Hintz graduated with a BSc in Mathematics and a BSc in Physics from the University of Göttingen in 2011. He obtained his PhD in 2015 at Stanford University under the supervision of András Vasy.
After his postdoctoral appointments at the Miller Institute and Clay Mathematics Institute, he joined the faculty of the Massachusetts Institute of Technology as an assistant professor in 2019, later becoming an associate professor. In 2021, he moved to ETH Zürich as an associate professor of mathematics and physics. As of Fall 2025, he is a full professor of mathematics at Pennsylvania State University.

Awards and honors

Hintz was Miller Research Fellow from 2015 to 2017, where he was mentored by Maciej Zworski. He subsequently was a Clay Research Fellow from 2017 to 2020. During his time as a faculty member of the Massachusetts Institute of Technology, he was an Alfred P. Sloan Research Fellow from 2020 to 2022. In 2021, he delivered a plenary lecture at the 20th International Congress on Mathematical Physics. The following year, Hintz gave a special invited lecture at the International Congress of Mathematicians together with Gustav Holzegel. In 2022, he was awarded the Golden Owl for excellence in teaching at ETH Zürich. He received a Beijing [Institute of Mathematical Sciences and Applications|Frontiers of Science Award] in 2023 and the IAMP Early Career Award in 2024.

Research

Hintz's work applies methods from microlocal analysis as well as scattering and spectral theory to hyperbolic partial differential equations arising in Einstein's theory of general relativity. In collaboration with András Vasy, he proved the nonlinear stability of the Kerr-de Sitter family of black holes. He also co-authored a paper on possible violations of Sir Roger Penrose's strong cosmic censorship conjecture. Among his other contributions is a proof of Price's law on the rate of decay of waves on Kerr black hole spacetimes.

Books

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