Computational Nuclear Quantum Many-Body Problem: The UNEDF Project

Scott Bogner; Aurel Bulgac; Joseph A. Carlson; Jonathan Engel; George; Fann; Richard J. Furnstahl; Stefano Gandolfi; Gaute Hagen; Mihai Horoi,; Calvin W. Johnson; Markus Kortelainen; Ewing Lusk; Pieter Maris; Hai Ah Nam,; Petr Navratil; Witold Nazarewicz; Esmond G. Ng; Gustavo P.A. Nobre; Erich; Ormand; Thomas Papenbrock; Junchen Pei; Steven C. Pieper; Sofia Quaglioni,; Kenneth J. Roche; Jason Sarich; Nicolas Schunck; Masha Sosonkina; Jun; Terasaki; Ian J. Thompson; James P. Vary; Stefan M. Wild

arXiv:1304.3713·nucl-th·June 15, 2015·Comput. Phys. Commun.

Computational Nuclear Quantum Many-Body Problem: The UNEDF Project

Scott Bogner, Aurel Bulgac, Joseph A. Carlson, Jonathan Engel, George, Fann, Richard J. Furnstahl, Stefano Gandolfi, Gaute Hagen, Mihai Horoi,, Calvin W. Johnson, Markus Kortelainen, Ewing Lusk, Pieter Maris, Hai Ah Nam,, Petr Navratil, Witold Nazarewicz, Esmond G. Ng

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TL;DR

The UNEDF project utilized high-performance computing and interdisciplinary collaboration to advance solutions to the complex nuclear quantum many-body problem, leading to novel physics insights.

Contribution

It demonstrated the effectiveness of combining physics, mathematics, and computer science for algorithmic and computational innovations in nuclear physics.

Findings

01

Showcased diverse scientific results from UNEDF

02

Validated the importance of interdisciplinary collaboration

03

Achieved advancements in nuclear many-body calculations

Abstract

The UNEDF project was a large-scale collaborative effort that applied high-performance computing to the nuclear quantum many-body problem. UNEDF demonstrated that close associations among nuclear physicists, mathematicians, and computer scientists can lead to novel physics outcomes built on algorithmic innovations and computational developments. This review showcases a wide range of UNEDF science results to illustrate this interplay.

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