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Henriette Elvang

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Henriette Elvang
NameHenriette Elvang
NationalityDanish
FieldsTheoretical physics, High-energy physics, String theory
WorkplacesUniversity of Michigan, University of California, Davis, Cornell University, University of California, Berkeley, Harvard University
Alma materUniversity of Copenhagen, University of California, Berkeley
Doctoral advisorGary Gibbons
Known forScattering amplitudes, Black hole microstates, Supergravity

Henriette Elvang is a Danish theoretical physicist known for work in high-energy theory, scattering amplitudes, and quantum gravity. She has held faculty appointments and visiting positions at leading institutions and contributed to developments connecting perturbative techniques with string theory, supersymmetry, and black hole physics. Her research blends methods from Quantum Field Theory, String Theory, General Relativity, and Supersymmetry to address questions about fundamental interactions and holography.

Early life and education

Elvang was born in Denmark and completed her undergraduate studies at the University of Copenhagen where she studied theoretical physics and mathematics alongside peers engaged with topics from Renormalization Group studies to Conformal Field Theory. She pursued graduate research at the University of California, Berkeley under advisors who had connections to the Princeton University and Cambridge University communities, focusing on aspects of Supergravity and perturbative amplitudes influenced by prior work from groups at Stanford University, Caltech, and MIT. Her doctoral training exposed her to collaborations and seminars involving figures from Institute for Advanced Study, Harvard University, and Max Planck Institute for Gravitational Physics.

Research and academic career

Elvang's postdoctoral and faculty trajectory included positions at research centers such as Cornell University, University of California, Davis, and the University of Michigan, and visiting appointments at institutes like the Kavli Institute for Theoretical Physics and the Perimeter Institute for Theoretical Physics. Her programmatic research synthesizes techniques developed in the BCFW recursion relations community, the Spinor Helicity Formalism, and the modern amplitudes program pioneered by researchers at Imperial College London and Cambridge University. She has interacted with collaborations linked to the Large Hadron Collider phenomenology groups, the AdS/CFT correspondence research networks, and workshops hosted by the Simons Foundation and the National Science Foundation.

Major contributions and notable publications

Elvang has authored influential papers on scattering amplitudes in Gauge Theory, loop computations in Super Yang-Mills Theory, and constructions of black hole microstates in the context of String Theory and Supergravity. Her work connects to classic results such as the Parke–Taylor formula, the Kawai–Lewellen–Tye relations, and developments in Twistor Theory articulated by researchers at UCLA and Oxford University. She co-authored textbooks and review articles that survey modern amplitude techniques and applications to gravitational wave calculations relevant to the LIGO Scientific Collaboration and the Event Horizon Telescope efforts. Specific contributions relate to ultraviolet properties of supergravity theories investigated alongside groups from University of Cambridge and Stanford University, and to holographic analyses inspired by the AdS_5/CFT_4 correspondence studied at Princeton University and Columbia University.

Her publication record includes papers in journals associated with the American Physical Society, the Institute of Physics, and the European Physical Journal, and contributions to proceedings from meetings hosted by the American Institute of Physics and the International Centre for Theoretical Physics. She has collaborated with theorists from Yale University, University of Chicago, Rutgers University, Brown University, and Duke University.

Awards and honors

Elvang's honors reflect recognition from national funding agencies and academic societies including grants and fellowships connected to the National Science Foundation, awards associated with the Simons Foundation, and invitations to deliver plenary talks at conferences organized by the American Physical Society and the International Conference on High Energy Physics. She has been named to distinguished lecture series at centers like the Aspen Center for Physics and received institutional awards for research excellence at the University of Michigan and previous host institutions.

Teaching and mentorship

Elvang has taught graduate and undergraduate courses drawing on curricula from programs at University of Michigan and University of California, Davis, including seminars on Quantum Field Theory, General Relativity, String Theory, and modern scattering amplitudes approaches developed by scholars at Princeton University and Harvard University. She has supervised doctoral students and postdoctoral researchers who have gone on to positions at institutions such as CERN, Perimeter Institute for Theoretical Physics, Institute for Advanced Study, and leading universities worldwide. Her mentorship includes participation in outreach and summer schools organized by the Simons Center for Geometry and Physics and the European Organization for Nuclear Research.

Professional service and collaborations

Elvang serves on program committees and editorial boards associated with journals and conferences run by the American Physical Society, the International Union of Pure and Applied Physics, and the European Physical Society. She has organized workshops in collaboration with groups from Perimeter Institute, Kavli Institute for Theoretical Physics, Simons Foundation, and national laboratories including Fermilab and Lawrence Berkeley National Laboratory. Her collaborative network spans faculty and researchers at Stanford University, Caltech, Imperial College London, University of Cambridge, Oxford University, Columbia University, Yale University, University of Tokyo, Max Planck Institute for Physics, Scuola Normale Superiore, and others across Europe, North America, and Asia.

Category:Danish physicists Category:Theoretical physicists