Marina Huerta

Last updated
Marina Huerta
Born
Buenos Aires, Argentina
Alma mater Universidad de Buenos Aires, Instituto Balseiro, Universidad Nacional de Cuyo
Awards New Horizons (2015)
Dirac Medal (ICTP) (2024)
Scientific career
Fields Theoretical physics, Quantum Information, Quantum Field physics
Institutions Instituto Balseiro, CNEA and CONICET
Thesis  (2000)
Doctoral advisor Guillermo Zemba and Rafael Montemayor

Marina Huerta (born 1968) is an Argentinian theoretical physicist and a physics professor. She is known for her work on quantum entropy in quantum field theory. She has provided a new interpretation of the Bekenstein bound. As of 2020, she has 29 peer-reviewed publications with more than 2000 citations. [1]

Contents

In 2015 she won the New Horizons in Physics - Breakthrough Prize [2] for "fundamental ideas about entropy in quantum field theory and quantum gravity". [3] [4] [5] [6] [7] In 2024 she was awarded the Dirac Medal (ICTP) jointly with her husband Horacio Casini, Shinsei Ryu and Tadashi Takayanagi. [8]

She researches quantum field theory and quantum information at the Centro Atómico Bariloche and the Argentinian research organization: CONICET. [9] She is a professor at the Instituto Balseiro of the Universidad Nacional de Cuyo in Argentina where her lectures on special relativity [10] have been filmed and are offered free of charge (in Spanish). The Strings School has published her lectures on entanglement entropy [11] (in English).

Biography

Marina Huerta was born in 1968 in Buenos Aires, Argentina. She studied at the Universidad de Buenos Aires (UBA) and then moved to the Instituto Balseiro. [12] She obtained her Ph.D. in physics in the year 2000 after completing a doctoral dissertation on an effective description of the Quantum Hall Effect under the supervision of Guillermo Zemba and Rafael Montemayor. [13]
In 2005 and then in 2014, she spent some time at Princeton's Institute for Advanced Study. [14] On the 2014 visit, Huerta researched entanglement entropy which enlightens aspects of quantum field theory inaccessible with any other approach. [15]

She was one of the organizers of the workshop 'Quantum Gravity in the Southern Cone' in 2019. [16]

Contributions to physics

Huerta main contribution in theoretical physics is in geometric entropy in quantum field theory, holography, quantum gravity and quantum information theory. She uses interlacing entropy as an indicator of confinement and phase transitions. It is considered the natural order parameter for systems with topological order. Relative entropy's properties give rise to the Bekenstein dimension, energy levels in field theories and the generalized second law. She has provided a new interpretation of the Bekenstein bound using relative entropy and distinguishability of states.

Interlacing entropy is essential in holography, which relates quantum gravity theories to non-gravitational field theories with one less dimension. Interlacing is necessary to explain the connectivity of space and to describe physics beyond the event horizon.

Selected publications

Related Research Articles

The holographic principle is a property of string theories and a supposed property of quantum gravity that states that the description of a volume of space can be thought of as encoded on a lower-dimensional boundary to the region — such as a light-like boundary like a gravitational horizon. First proposed by Gerard 't Hooft, it was given a precise string theoretic interpretation by Leonard Susskind, who combined his ideas with previous ones of 't Hooft and Charles Thorn. Leonard Susskind said, "The three-dimensional world of ordinary experience––the universe filled with galaxies, stars, planets, houses, boulders, and people––is a hologram, an image of reality coded on a distant two-dimensional surface." As pointed out by Raphael Bousso, Thorn observed in 1978 that string theory admits a lower-dimensional description in which gravity emerges from it in what would now be called a holographic way. The prime example of holography is the AdS/CFT correspondence.

<span class="mw-page-title-main">Black hole thermodynamics</span> Area of study

In physics, black hole thermodynamics is the area of study that seeks to reconcile the laws of thermodynamics with the existence of black hole event horizons. As the study of the statistical mechanics of black-body radiation led to the development of the theory of quantum mechanics, the effort to understand the statistical mechanics of black holes has had a deep impact upon the understanding of quantum gravity, leading to the formulation of the holographic principle.

<span class="mw-page-title-main">Jacob Bekenstein</span> Mexican-Israeli physicist

Jacob David Bekenstein was a Mexican-born American-Israeli theoretical physicist who made fundamental contributions to the foundation of black hole thermodynamics and to other aspects of the connections between information and gravitation.

<span class="mw-page-title-main">Juan Maldacena</span> Argentine physicist (born 1968)

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<span class="mw-page-title-main">Ashoke Sen</span> Indian physicist (born 1956)

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<span class="mw-page-title-main">Bekenstein bound</span> Upper limit on entropy in physics

In physics, the Bekenstein bound is an upper limit on the thermodynamic entropy S, or Shannon entropy H, that can be contained within a given finite region of space which has a finite amount of energy—or conversely, the maximum amount of information required to perfectly describe a given physical system down to the quantum level. It implies that the information of a physical system, or the information necessary to perfectly describe that system, must be finite if the region of space and the energy are finite.

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The Bousso bound captures a fundamental relation between quantum information and the geometry of space and time. It appears to be an imprint of a unified theory that combines quantum mechanics with Einstein's general relativity. The study of black hole thermodynamics and the information paradox led to the idea of the holographic principle: the entropy of matter and radiation in a spatial region cannot exceed the Bekenstein–Hawking entropy of the boundary of the region, which is proportional to the boundary area. However, this "spacelike" entropy bound fails in cosmology; for example, it does not hold true in our universe.

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The Ryu–Takayanagi conjecture is a conjecture within holography that posits a quantitative relationship between the entanglement entropy of a conformal field theory and the geometry of an associated anti-de Sitter spacetime. The formula characterizes "holographic screens" in the bulk; that is, it specifies which regions of the bulk geometry are "responsible to particular information in the dual CFT". The conjecture is named after Shinsei Ryu and Tadashi Takayanagi, who jointly published the result in 2006. As a result, the authors were awarded the 2015 New Horizons in Physics Prize for "fundamental ideas about entropy in quantum field theory and quantum gravity". The formula was generalized to a covariant form in 2007.

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<span class="mw-page-title-main">Karen Hallberg</span> Argentine physicist

Karen Astrid Hallberg is an Argentine scientist and professor of physics at the Balseiro Institute. and at the Bariloche Atomic Centre. Se was awarded the 2019 L'Oreal-UNESCO Award for Women in Science Laureate.

Daniel Harlow is the Jerrold R. Zacharias Career Development Associate Professor of Physics at the Massachusetts Institute of Technology.

References

  1. "Scopus preview - Huerta, M. - Author details - Scopus".
  2. "Breakthrough Prize". breakthroughprize.org. Retrieved 2020-05-11.
  3. The Breakthrough Prize. "Recipients Of The 2015 Breakthrough Prizes In Fundamental Physics And Life Sciences Announced".
  4. "Físicos galardonados volvieron a Bariloche con su premio". Diario Río Negro (in European Spanish). 2014-11-14. Retrieved 2020-05-11.
  5. Overbye, Dennis (2014-11-09). "Scientists, and Universe's Odd Behavior, Are Recognized With $3 Million Prizes". The New York Times. ISSN   0362-4331 . Retrieved 2020-05-18.
  6. "Breakthrough Prize – Fundamental Physics Breakthrough Prize Laureates – Marina Huerta". breakthroughprize.org. Retrieved 2020-05-12.
  7. "Docentes del Balseiro recibieron una importante distinción internacional".
  8. Dirac Medal (ICTP) 2024
  9. "Staff". fisica.cab.cnea.gov.ar. Retrieved 2020-05-22.
  10. "Instituto Balseiro - Clases en linea".
  11. Entanglement Entropy - I by Marina Huerta. YouTube . Archived from the original on 2021-12-10.
  12. "Breakthrough Prize – Fundamental Physics Breakthrough Prize Laureates – Marina Huerta". breakthroughprize.org. Retrieved 2024-05-28.
  13. "RRHH". fisica.cab.cnea.gov.ar. Retrieved 2020-05-22.
  14. "IAS". Archived from the original on 2015-11-21. Retrieved 2020-05-18.
  15. "Marina Huerta". Institute for Advanced Study. 9 December 2019. Retrieved 2020-05-22.
  16. "Home - VIII Quantum Gravity in the Southern Cone". fisica.cab.cnea.gov.ar. Retrieved 2020-05-18.
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