Cora Dvorkin

Cora Dvorkin is an Argentine physicist, who is a professor at the physics department at Harvard University. Dvorkin is a theoretical cosmologist. Her areas of research are: the nature of dark matter, neutrinos and other light relics, and the physics of the early universe. Dvorkin is the Harvard Representative at the newly NSF-funded Institute for Artificial Intelligence and Fundamental Interactions (IAIFI)'s Board.[1][2] In 2022, she was voted “favorite professor” by the Harvard senior Class of 2023. She has been awarded the 2019 DOE Early Career award and has been named the "2018 Scientist of the year" by the Harvard Foundation for "Salient Contributions to Physics, Cosmology and STEM Education".[3] She has also been awarded a Radcliffe Institute Fellowship and a Shutzer Professorship at the Radcliffe Institute. In 2018 she was awarded a Star Family Challenge prize for Promising Scientific Research, which supports high-risk, high-impact scientific research at Harvard. In 2020, Dvorkin gave a talk on machine learning applied to the search for dark matter as part of the TEDx Río de la Plata event.[4]

Professor

Cora Dvorkin
NationalityArgentine
EducationPhD, University of Chicago
Alma materUniversity of Chicago (PhD)
University of Buenos Aires (BSc)
Scientific career
FieldsTheoretical cosmology
InstitutionsHarvard University
Institute for Advanced Study (IAS)
ThesisOn the imprints of inflation in the Cosmic Microwave Background. (2011)
Doctoral advisorProf. Wayne Hu
Websitewww.physics.harvard.edu/people/facpages/dvorkin http://dvorkin.physics.harvard.edu/Home.html

Early life and education

Dvorkin was born and raised in Buenos Aires, Argentina.[5] She received her diploma in Physics at the University of Buenos Aires with honors. She moved to the University of Chicago for her graduate studies, where she earned her Ph.D. in the department of physics in 2011 and where she won the "Sydney Bloomenthal Fellowship" for "outstandung performance in her research".[6] She has conducted postdoctoral research at the School of Natural Sciences at the Institute for Advanced Study in Princeton (2011-2014) and at the Institute for Theory and Computation (ITC) at the Center for Astrophysics | Harvard & Smithsonian (2014-2015), where she was both a Hubble Fellow and an ITC fellow.

Research and career

Dvorkin joined the faculty at Harvard University in fall 2015. She makes use of Cosmic microwave background observations, gravitational lensing and the Large-scale structure of the Universe of the universe to better understand the nature of the dark sector and the physics of the early universe.[7] She has pushed the frontiers of sub-GeV dark matter using CMB and large-scale structure data.[8][9] She has been involved in leading the science goals for the DOE-funded next-generation CMB experiment ("CMB-S4"), for which these scenarios are being proposed as the main driver of the dark matter science case.[10] She has developed with her research group a novel formalism aimed at probing dark matter at small scales using gravitational lensing, by means of statistical measurements of dark matter substructure. She has also pioneered the use of machine learning techniques to find dark matter subhalos in lensing systems.

Dvorkin has pioneered a model-independent method for probing the shape of the inflationary potential.[11] She has also constructed new theoretical templates for higher-order correlation functions of the initial curvature perturbations that could shed light on the physical properties of particles with non-zero spin during inflation as well as possible phase transitions during the early universe. She developed statistical tools to look for these correlation functions in the Cosmic Microwave Background and the large-scale structure data measured by current and future surveys. In 2014-2015, she joined the joint analysis between BICEP2, the Keck array, and Planck collaboration. She worked on the likelihood analysis of a multi-component model that included Galactic foregrounds and a possible contribution from inflationary gravity waves. No statistically significant evidence for primordial gravitational waves and a strong evidence for galactic dust were reported in this work.[12]

Dvorkin is also extremely dedicated to supporting underrepresented minorities and women in science.

Awards and honors

  • 2019 United States Department of Energy Early Career Award[13]
  • 2018 Harvard Scientist of the Year, awarded by the Harvard Foundation[14]
  • 2018 Radcliffe Institute Fellowship and a Shutzer Professorship[15]
  • 2018 Star Family Challenge prize recipient for Promising Scientific Research, seed funding for high-risk and high-impact research projects at Harvard University.
  • 2014 Kavli Frontiers of Science Fellowship,[16] awarded by the US National Academy of Sciences and the Kavli Foundation
  • 2014-2017 Hubble Fellowship, awarded by NASA[17]
  • 2014-2017 ITC Fellowship, awarded by Harvard University[18]
  • 2012 Martin and Beate Block Award, awarded to the best young physicist by the Aspen Center for Physics[19]
  • 2009 "Sidney Bloomenthal Fellowship", awarded for "outstanding performance in research", by the University of Chicago, Department of Physics

References

  1. "AI Institute". dvorkin.physics.harvard.edu.
  2. "National Science Foundation awards $20M to launch artificial-intelligence institute". www.seas.harvard.edu.
  3. "Physics Prof. Dvorkin Named 2018 Harvard Scientist of the Year | News | The Harvard Crimson". www.thecrimson.com.
  4. Inteligencia artificial y la materia oscura del universo | Cora Dvorkin | TEDxRiodelaPlata
  5. "Cora Dvorkin". www.physics.harvard.edu.
  6. "Cora Dvorkin". www.physics.harvard.edu. Retrieved 17 May 2021.
  7. Boyle, Rebecca. "The Cosmologist Who Dreams in the Universe's Dark Threads". Quanta Magazine.
  8. Dvorkin, Cora; Blum, Kfir; Kamionkowski, Marc (2013), "C. Dvorkin, K. Blum, and M. Kamionkowski, Constraining Dark Matter-Baryon Scattering with Linear Cosmology", Physical Review D, 89 (2): 023519, arXiv:1311.2937, doi:10.1103/PhysRevD.89.023519, S2CID 119179029
  9. Weishuang Linda Xu; Dvorkin, Cora; Chael, Andrew (2018), "W.L.Xu, C. Dvorkin, and A. Chael, Probing sub-GeV Dark Matter-Baryon Scattering with Cosmological Observables", Physical Review D, 97 (10): 103530, arXiv:1802.06788, doi:10.1103/PhysRevD.97.103530, S2CID 119412934
  10. Abazajian, Kevork; et al. (2019), CMB-S4 Science Case, Reference Design, and Project Plan, arXiv:1907.04473
  11. Dvorkin, Cora; Hu, Wayne (2009), "C. Dvorkin and W. Hu, Generalized Slow Roll for Large Power Spectrum Features", Physical Review D, 81 (2): 023518, arXiv:0910.2237, doi:10.1103/PhysRevD.81.023518, S2CID 18239153
  12. Ade, P. A. R.; et al. (2015), "Joint Analysis of BICEP2/Keck Array and Planck Data", Physical Review Letters, 114 (10): 101301, arXiv:1502.00612, Bibcode:2015PhRvL.114j1301B, doi:10.1103/PhysRevLett.114.101301, PMID 25815919, S2CID 218078264
  13. "Two faculty receive Early Career Research funding from DOE". Harvard Gazette. 5 August 2019.
  14. "Cora Dvorkin named 2018 Harvard Scientist of the Year". itc.cfa.harvard.edu.
  15. "Cora Dvorkin". Radcliffe Institute for Advanced Study at Harvard University.
  16. "Kavli Frontiers of Science".
  17. "NASA Hubble Fellowship".
  18. "ITC Fellowship".
  19. "Martin and Beate Block Award".
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