Nicholas Constantine Metropolis was a Greek-American physicist.
Quantum Monte Carlo encompasses a large family of computational methods whose common aim is the study of complex quantum systems. One of the major goals of these approaches is to provide a reliable solution of the quantum many-body problem. The diverse flavors of quantum Monte Carlo approaches all share the common use of the Monte Carlo method to handle the multi-dimensional integrals that arise in the different formulations of the many-body problem.
Juan Ignacio Cirac Sasturain, known professionally as Ignacio Cirac, is a Spanish physicist. He is one of the pioneers of the field of quantum computing and quantum information theory. He is the recipient of the 2006 Prince of Asturias Award in technical and scientific research.
In computational physics, variational Monte Carlo (VMC) is a quantum Monte Carlo method that applies the variational method to approximate the ground state of a quantum system.
Michael Lawrence KleinNAS is Laura H. Carnell Professor of Science and director of the Institute for Computational Molecular Science in the college of science and technology at Temple University in Philadelphia, US. He was previously the Hepburn Professor of Physical Science in the Center for Molecular Modeling at the University of Pennsylvania. Currently, he serves as the dean of the college of science and technology and has since 2013.
David Matthew Ceperley is a theoretical physicist in the physics department at the University of Illinois Urbana-Champaign or UIUC. He is a world expert in the area of Quantum Monte Carlo computations, a method of calculation that is generally recognised to provide accurate quantitative results for many-body problems described by quantum mechanics.
David P. Landau is distinguished research professor of physics and founding director of the Center for Simulational Physics at the University of Georgia. In 1967, he received his PhD at Yale University under the direction of Werner P. Wolf. Two years later, he moved to the University of Georgia. Although intending to continue experimental research, he instead initiated high-quality Monte Carlo studies of phase transitions. He is a Fellow of the American Physical Society. He won the Aneesur Rahman Prize for Computational Physics, the highest award in computational physics given by the American Physical Society. In 2016, he received the doctor honoris causa degree from the Federal University of Minas Gerais.
Allan Blaer is a physicist, professor emeritus and special lecturer at Columbia University in New York City. He received his undergraduate degree from Columbia University in 1964, where he was the valedictorian. He later went on to obtain his PhD in physics at the same institution. He has done research in both theoretical and experimental physics. In quantum field theory, he worked on phase transitions in low-temperature bosonic and fermionic systems, quantum field theory anomalies, dyons and magnetic monopoles in non-abelian gauge theories, and renormalization theory. In experimental physics, he has worked on precision measurement of vacuum polarization in muonic atoms to test quantum electrodynamics.
Michael John Creutz is an American theoretical physicist at Brookhaven National Laboratory specializing in lattice gauge theory and computational physics.
Xie George Xu was the Edward E. Hood Chair Professor of Engineering at Rensselaer Polytechnic Institute (RPI), Troy, New York, United States, before he relocated in 2020 to China and joined the faculty of the University of Science and Technology of China.
Elaine Surick Oran is an American physical scientist and is considered a world authority on numerical methods for large-scale simulation of physical systems. She has pioneered computational technology to solve complex reactive flow problems, unifying concepts from science, mathematics, engineering, and computer science in a new methodology. An incredibly diverse range of phenomena can be modeled and better understood using her techniques for numerical simulation of fluid flows, ranging from the tightly grouped movements of fish in Earth's oceans to the explosions of far-flung supernovae in space. Her work has contributed significantly to the advancement of the engineering profession.
George Em Karniadakis is a professor of applied mathematics at Brown University. He is a Greek-American researcher who is known for his wide-spectrum work on high-dimensional stochastic modeling and multiscale simulations of physical and biological systems, and is a pioneer of spectral/hp-element methods for fluids in complex geometries, general polynomial chaos for uncertainty quantification, and the Sturm-Liouville theory for partial differential equations and fractional calculus.
Robert Haakon Swendsen is Professor of Physics at Carnegie Mellon University. He is known in the computational physics community for the Swendsen-Wang algorithm, the Monte Carlo Renormalization Group and related methods that enable efficient computational studies of equilibrium phenomena near phase transitions. He is the 2014 Recipient of the Aneesur Rahman Prize for Computational Physics from the American Physical Society.
Emily Ann Carter is the Gerhard R. Andlinger Professor in Energy and the Environment and a professor of mechanical and aerospace engineering, the Andlinger Center for Energy and the Environment, and the Program in Applied and Computational Mathematics at Princeton University. She has been on the faculty at Princeton since 2004, including as serving as Princeton's Dean of the School of Engineering and Applied Science from 2016 to 2019. She moved to UCLA to serve as executive vice chancellor and provost and a distinguished professor of chemical and biomolecular engineering, before returning to Princeton in December 2021. Carter is a theorist and computational scientist whose work combines quantum mechanics, solid-state physics, and applied mathematics.
Massimo Boninsegni is an Italian-Canadian theoretical condensed matter physicist. He graduated with a Bachelor's degree in physics at the Universita' degli Studi di Genova in 1986.
G. Peter Lepage is a Canadian American theoretical physicist and an academic administrator. He was the Harold Tanner Dean of the College of Arts and Sciences at Cornell University from 2003 to 2013.
Emanuela Del Gado is an Italian theoretical physicist and the Provost's Distinguished Professor at Georgetown University. She combines statistical mechanics and computational modelling to understand complex materials.
Lyle Norman Long is an academic, and computational scientist. He is a Professor Emeritus of Computational Science, Mathematics, and Engineering at The Pennsylvania State University, and is most known for developing algorithms and software for mathematical models, including neural networks, and robotics. His research has been focused in the fields of computational science, computational neuroscience, cognitive robotics, parallel computing, and software engineering.
Clare C. Yu is an American theoretical biophysicist and condensed matter physicist. She is Professor of Physics and Astronomy in the School of Physical Sciences at the University of California, Irvine (UCI). She is a Fellow of the American Physical Society, of the American Academy of Arts and Sciences, and of the American Association for the Advancement of Science. She is also a former Alfred P. Sloan Fellow, and a current Trustee of the Aspen Center for Physics.
Jose Luis Mendoza-Cortes is a theoretical condensed matter physicist and material scientist specializing in computational physics, materials science, chemistry, and engineering. His studies include methods for solving Schrödinger's or Dirac's equation, machine learning equations, among others. These methods include the development of computational algorithms and their mathematical properties.
