Nina Holden
Nina Holden is a Norwegian mathematician interested in probability theory and stochastic processes, including graphons, random planar maps, the Schramm–Loewner evolution, and their applications to quantum gravity. She was a Junior Fellow at the Institute for Theoretical Studies at ETH Zurich, and is currently an associate professor at the Courant Institute of Mathematical Sciences of New York University.[1][2] EducationAs a student at Berg Upper Secondary School in Oslo, Norway,[3] Holden became the first woman to win the Abel competition, Norway's national Mathematical Olympiad.[4] She competed in 2005 in the International Mathematical Olympiad, where she earned an honorable mention with one of the two top scores on the Norwegian team.[5] She became a student at the University of Oslo in Norway, where she earned a bachelor's degree in mathematics and computational science in 2008 and a master's degree in applied mathematics in 2010. While a student in Oslo, she also visited the University of Oxford from 2006 to 2007.[1] After three years of work as an energy market analyst, she went to the Massachusetts Institute of Technology for graduate study,[1][4] and completed her Ph.D. there in 2018.[1] Her dissertation, Cardy embedding of random planar maps and a KPZ formula for mated trees, was supervised by Scott Sheffield.[1][6] RecognitionIn association with the 2021 Breakthrough Prizes, Holden was awarded one of three 2021 Maryam Mirzakhani New Frontiers Prizes, for early-career achievements by a woman mathematician.[2][7] The citation reads: "for work in random geometry, particularly on Liouville Quantum Gravity as a scaling limit of random triangulations." The particular work refers to her joint work with Xin Sun on the convergence of uniform triangulations under a conformal embedding. The other two winners of the prize were Urmila Mahadev and Lisa Piccirillo.[7] In 2023, she was a recipient of the Rollo Davidson Prize,[8] and in the following year, she was awarded the EMS Prize "for her profound contributions to probability theory and its applications to statistical physics, including results linking Liouville quantum gravity, the Schramm-Loewner evolution, and random triangulations".[9] References
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