Eva-Maria Graefe

Eva-Maria Graefe is a German mathematical physicist who works as a reader in mathematical physics at Imperial College London and as a University Research Fellow of the Royal Society. Her research involves ultracold atoms and non-Hermitian quantum mechanics,[1] an area she describes informally as the study of "holes in quantum systems" by which dissipation degrades their quantum behavior.[2][3]

Education and career

Graefe studied physics at the University of Kaiserslautern, completing her doctorate there in 2009.[4] Her dissertation, Quantum-classical correspondence for a Bose-Hubbard dimer and its non-Hermitian generalisation, was supervised by Hans-Jürgen Korsch.[5]

She did postdoctoral research in quantum chaos at the University of Bristol before joining Imperial College.[4] There, she was supported as a L'Oréal-UNESCO For Women in Science Fellow[2][3] prior to her position as a Royal Society University Research Fellow.[1]

Recognition

Graefe is the 2019 winner of the Anne Bennett Prize of the London Mathematical Society, "in recognition of her outstanding research in quantum theory and the inspirational role she has played among female students and early career researchers in mathematics and physics". The award cited her work with Hans-Jürgen Korsch on mean-field approximation of parity-time symmetric Bose–Einstein condensates, her work with G. Demange on the exceptional points of non-Hermitian operators, and her work with R. Schubert on semiclassical limits of non-Hermitian quantum mechanics.[6]

gollark: It has some nice-for-users features like that you can, say, make your disk's contents unreadable if you take it out and stick it in another computer (without also having the TPM to do things to).
gollark: It's basically a bit of hardware built into the CPU for storing secret keys the user isn't meant to be able to access.
gollark: And similar accursed DRM schemes.
gollark: The older ones were low-powered in-order cores for phones and such, but now Atom-branded things go into networking appliances and are actually moderately fast.
gollark: There are lots of Atoms. They aren't actually very consistent in anything.

References
  1. Dr Eva-Maria Graefe, Imperial College London, retrieved 2019-07-22
  2. 2014 UK & Ireland For Women in Science Fellows Announced, L'Oreal, retrieved 2019-07-22
  3. Dr Eva-Marie Graefe juggles science and motherhood – with help from L'Oreal and UNESCO, Laboratory News, December 12, 2014, archived from the original on 12 June 2017
  4. "Eva-Maria Graefe", Author profile, American Physical Society, retrieved 2019-07-22
  5. Quantum-classical correspondence for a Bose-Hubbard dimer and its non-Hermitian generalisation (PDF), University of Kaiserslautern, retrieved 2019-07-22
  6. Anne Bennett Prize 2019: Citation for Dr Eva-Maria Graefe (PDF), London Mathematical Society, retrieved 2019-07-22
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