Chiara Nappi

Last updated
Chiara R. Nappi
EdWittenChiaraNappiJune2011.jpg
Ed Witten and Chiara Nappi (2011)
Born (1951-02-21) 21 February 1951 (age 73)
Alma mater University of Rome
Spouse Edward Witten
Scientific career
Fields Physics
Doctoral advisor Giovanni Jona-Lasinio

Chiara Rosanna Nappi (born 21 February 1951) is an Italian physicist. Her research areas have included mathematical physics, particle physics, and string theory.

Contents

Academic career

Nappi obtained the Diploma della Scuola di Perfezionamento in physics from the University of Naples in 1976. Her advisor was Giovanni Jona-Lasinio of the University of Rome. She moved to the United States to carry out academic research, first at Harvard University, and later at Princeton University and the Institute for Advanced Study. She has since been a professor of physics at the University of Southern California [1] (1999–2001) and Princeton University [2] (2001–present). In May 2013, Nappi obtained emerita status in Princeton. [3]

Research

Chiara Nappi's early work focused on rigorous statistical mechanics. Her work with R. Figari and R. Hoegh-Krohn resulted in one of the first proposals of a thermal interpretation of quantum field theory in de Sitter space. [4] In the 1980s, with G. Adkins and E. Witten, she investigated the static properties of baryons in the Skyrme model, [5] and with A. Abouelsaood, C. G. Callan, and S. A. Yost, she worked on the behavior of open strings in background electromagnetic fields. [6] She has also contributed to the analysis of black hole solutions and noncommutativity in string theory and integrability in string theories and gauge theories. [7] Nappi has also written a number of articles on education [8] and women in science. [9]

Personal life

Nappi is married to Edward Witten, a mathematical physicist and professor at the Institute for Advanced Study in Princeton, New Jersey. They have three children, Ilana, Daniela, and Rafael. [10]

Related Research Articles

M-theory is a theory in physics that unifies all consistent versions of superstring theory. Edward Witten first conjectured the existence of such a theory at a string theory conference at the University of Southern California in 1995. Witten's announcement initiated a flurry of research activity known as the second superstring revolution. Prior to Witten's announcement, string theorists had identified five versions of superstring theory. Although these theories initially appeared to be very different, work by many physicists showed that the theories were related in intricate and nontrivial ways. Physicists found that apparently distinct theories could be unified by mathematical transformations called S-duality and T-duality. Witten's conjecture was based in part on the existence of these dualities and in part on the relationship of the string theories to a field theory called eleven-dimensional supergravity.

In physics, string theory is a theoretical framework in which the point-like particles of particle physics are replaced by one-dimensional objects called strings. String theory describes how these strings propagate through space and interact with each other. On distance scales larger than the string scale, a string looks just like an ordinary particle, with its mass, charge, and other properties determined by the vibrational state of the string. In string theory, one of the many vibrational states of the string corresponds to the graviton, a quantum mechanical particle that carries the gravitational force. Thus, string theory is a theory of quantum gravity.

<span class="mw-page-title-main">Edward Witten</span> American theoretical physicist

Edward Witten is an American mathematical and theoretical physicist. He is a professor emeritus in the school of natural sciences at the Institute for Advanced Study in Princeton. Witten is a researcher in string theory, quantum gravity, supersymmetric quantum field theories, and other areas of mathematical physics. Witten's work has also significantly impacted pure mathematics. In 1990, he became the first physicist to be awarded a Fields Medal by the International Mathematical Union, for his mathematical insights in physics, such as his 1981 proof of the positive energy theorem in general relativity, and his interpretation of the Jones invariants of knots as Feynman integrals. He is considered the practical founder of M-theory.

String field theory (SFT) is a formalism in string theory in which the dynamics of relativistic strings is reformulated in the language of quantum field theory. This is accomplished at the level of perturbation theory by finding a collection of vertices for joining and splitting strings, as well as string propagators, that give a Feynman diagram-like expansion for string scattering amplitudes. In most string field theories, this expansion is encoded by a classical action found by second-quantizing the free string and adding interaction terms. As is usually the case in second quantization, a classical field configuration of the second-quantized theory is given by a wave function in the original theory. In the case of string field theory, this implies that a classical configuration, usually called the string field, is given by an element of the free string Fock space.

In theoretical physics, T-duality is an equivalence of two physical theories, which may be either quantum field theories or string theories. In the simplest example of this relationship, one of the theories describes strings propagating in a spacetime shaped like a circle of some radius , while the other theory describes strings propagating on a spacetime shaped like a circle of radius proportional to . The idea of T-duality was first noted by Bala Sathiapalan in an obscure paper in 1987. The two T-dual theories are equivalent in the sense that all observable quantities in one description are identified with quantities in the dual description. For example, momentum in one description takes discrete values and is equal to the number of times the string winds around the circle in the dual description.

In theoretical physics, S-duality is an equivalence of two physical theories, which may be either quantum field theories or string theories. S-duality is useful for doing calculations in theoretical physics because it relates a theory in which calculations are difficult to a theory in which they are easier.

In algebraic geometry and theoretical physics, mirror symmetry is a relationship between geometric objects called Calabi–Yau manifolds. The term refers to a situation where two Calabi–Yau manifolds look very different geometrically but are nevertheless equivalent when employed as extra dimensions of string theory.

<span class="mw-page-title-main">Nathan Seiberg</span> Israeli American theoretical physicist

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Jeffrey A. Harvey is an American string theorist at the University of Chicago.

Malcolm John Perry is a British theoretical physicist and emeritus professor of theoretical physics at University of Cambridge and professor of theoretical physics at Queen Mary University of London. His research mainly concerns quantum gravity, black holes, general relativity, and supergravity.

Montonen–Olive duality or electric–magnetic duality is the oldest known example of strong–weak duality or S-duality according to current terminology. It generalizes the electro-magnetic symmetry of Maxwell's equations by stating that magnetic monopoles, which are usually viewed as emergent quasiparticles that are "composite", can in fact be viewed as "elementary" quantized particles with electrons playing the reverse role of "composite" topological solitons; the viewpoints are equivalent and the situation dependent on the duality. It was later proven to hold true when dealing with a N = 4 supersymmetric Yang–Mills theory. It is named after Finnish physicist Claus Montonen and British physicist David Olive after they proposed the idea in their academic paper Magnetic monopoles as gauge particles? where they state:

There should be two "dual equivalent" field formulations of the same theory in which electric (Noether) and magnetic (topological) quantum numbers exchange roles.

Emil John Martinec is an American string theorist, a physics professor at the Enrico Fermi Institute at the University of Chicago, and director of the Kadanoff Center for Theoretical Physics. He was part of a group at Princeton University that developed heterotic string theory in 1985.

Igor R. Klebanov is an American theoretical physicist. Since 1989, he has been a faculty member at Princeton University where he is currently a Eugene Higgins Professor of Physics and the director of the Princeton Center for Theoretical Science. In 2016, he was elected to the National Academy of Sciences. Since 2022, he is the director of the Simons Collaboration on Confinement and QCD Strings.

In mathematical physics, a super Virasoro algebra is an extension of the Virasoro algebra to a Lie superalgebra. There are two extensions with particular importance in superstring theory: the Ramond algebra and the Neveu–Schwarz algebra. Both algebras have N = 1 supersymmetry and an even part given by the Virasoro algebra. They describe the symmetries of a superstring in two different sectors, called the Ramond sector and the Neveu–Schwarz sector.

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<span class="mw-page-title-main">David Olive</span> British theoretical physicist (1937–2012)

David Ian Olive ; 16 April 1937 – 7 November 2012) was a British theoretical physicist. Olive made fundamental contributions to string theory and duality theory, he is particularly known for his work on the GSO projection and Montonen–Olive duality.

Ryan Milton Rohm is an American string theorist. He is one of four physicists known as the Princeton string quartet, and is responsible for the development of heterotic string theory along with David Gross, Jeffrey A. Harvey and Emil Martinec, the other members of the Princeton String Quartet.

David B. Fairlie is a British mathematician and theoretical physicist, Professor Emeritus at the University of Durham (UK).

Peter Christopher West, born on 4 December 1951, is a British theoretical physicist at King's College, London and a fellow of the Royal Society.

In mathematical physics, two-dimensional Yang–Mills theory is the special case of Yang–Mills theory in which the dimension of spacetime is taken to be two. This special case allows for a rigorously defined Yang–Mills measure, meaning that the (Euclidean) path integral can be interpreted as a measure on the set of connections modulo gauge transformations. This situation contrasts with the four-dimensional case, where a rigorous construction of the theory as a measure is currently unknown.

References

  1. "Chiara Nappi - Professor". USC Physics. 2002-07-24. Retrieved 2009-01-14.
  2. "Physics Department, Princeton University - Chiara Nappi". Princeton Physics. 2009-11-23. Archived from the original on 2010-05-28. Retrieved 2010-05-13.
  3. Princeton University Honors Faculty Members Receiving Emeritus Status, May 2013
  4. Figari, R.; R. Hoegh-Krohn; C. R. Nappi (1975-02-11). "Interacting Relativistic Boson Fields In The De Sitter Universe With Two Space-Time Dimensions". Communications in Mathematical Physics . 44 (3): 265–278. Bibcode:1975CMaPh..44..265F. doi:10.1007/BF01609830. hdl: 10852/44044 . S2CID   122179335.
  5. Adkins, G.; C. R. Nappi; E. Witten (1983-12-05). "Static Properties of Nucleons in the Skyrme Model". Nuclear Physics B . 228 (3): 552–566. Bibcode:1983NuPhB.228..552A. doi:10.1016/0550-3213(83)90559-X.
  6. Abouelsaood, A.; C. G. Callan; C. R. Nappi; S. A. Yost (1986-11-06). "Open Strings in Background Gauge Fields". Nuclear Physics B . 280: 599–624. Bibcode:1987NuPhB.280..599A. doi:10.1016/0550-3213(87)90164-7.
  7. http://inspirehep.net/search?p=find+a+nappi,+chiara INSPIRE-HEP Database
  8. Nappi, Chiara (1999). Why Charter Schools? The Princeton Story (PDF). The Thomas B. Fordham Institute. Retrieved 2013-02-25.
  9. Nappi, Chiara (May 1990). "On Mathematics and Science Education in the US and Europe". Physics Today . 43 (5): 77. Bibcode:1990PhT....43e..77N. doi:10.1063/1.2810564.
  10. "Edward Witten Biography". Advameg, Inc. Retrieved 2010-05-13.