Renate Loll

E419151

Renate Loll is a theoretical physicist known for her pioneering work on quantum gravity, particularly the development of causal dynamical triangulations.

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Renate Loll canonical 1

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Predicate Object
instanceOf academic
person
physicist
theoretical physicist
almaMater University of Bonn NERFINISHED
birthYear 1962
citizenship Germany
coAuthorWith Jan Ambjørn
Jerzy Jurkiewicz NERFINISHED
coDeveloperOf causal dynamical triangulations approach to quantum gravity
doctoralAdvisor Martin Kober NERFINISHED
employer Radboud University NERFINISHED
Radboud University Nijmegen NERFINISHED
field quantum field theory
quantum gravity
theoretical physics
gender female
hasAcademicPosition professor at Radboud University Nijmegen
hasAcademicTitle Professor of Theoretical Physics
hasConcept emergent four-dimensional spacetime from causal dynamical triangulations
hasPublication causal dynamical triangulations
surface form: “Causal dynamical triangulations and the quest for quantum gravity”

causal dynamical triangulations
surface form: “Nonperturbative Lorentzian quantum gravity, causality and topology change”

“The universe from scratch”
hasResearchMethod Monte Carlo simulations in quantum gravity
lattice triangulations of spacetime
hasResult evidence for semiclassical de Sitter–like universe from CDT simulations
hasWorkedAt Max Planck Institute for Gravitational Physics
Niels Bohr Institute
Utrecht University NERFINISHED
knownFor causal dynamical triangulations
lattice quantum gravity
nonperturbative approaches to quantum gravity
languageSpoken English
German
memberOf Institute for Mathematics, Astrophysics and Particle Physics
surface form: Radboud Institute for Mathematics, Astrophysics and Particle Physics
nationality German
notableIdea dynamical emergence of spacetime dimensionality
using causal structure in lattice quantum gravity
occupation researcher
university professor
researchInterest lattice methods in gravity
nonperturbative quantum gravity
quantum spacetime
workInstitution Institute for Mathematics, Astrophysics and Particle Physics
surface form: Institute for Mathematics, Astrophysics and Particle Physics (IMAPP)
worksOn foundations of quantum gravity
numerical simulations of quantum spacetime

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Gerard ’t Hooft doctoralStudent Renate Loll