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NuclearTheory

Financiado

Nuclear Theory from First Principles

Nuclear physics aims at understanding the emergence and properties of complex structures like atomic nuclei from QCD, the underlying theory of the strong interaction, and addresses some of the Big Science Questions including the o... ver más

31/10/2026

RUHR-UNIVERSITAET...

2M€

Presupuesto del proyecto: 2M€

Líder del proyecto

RUHRUNIVERSITAET BOCHUM No se ha especificado una descripción o un objeto social para esta compañía.

TRL 4-5

Ver 2 Participantes

Financiación concedida El organismo H2020 notifico la concesión del proyecto el día 2020-11-27

Línea de financiación objetivo El proyecto se financió a través de la siguiente ayuda:

ERC-2019-ADG: ERC Advanced Grant

I+D

Cerrada hace 5 años

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2 Participantes

RUHR-UNIVERSITAET BOCHUM

2.50M€ | Lider

GUINAZ ELECTRONICA

424.98K€ | Participante

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Últimas noticias

25-11-2024: ECE En las últimas 48 horas el Organismo ECE ha otorgado 52 concesiones

25-11-2024: CMVAMADRID En las últimas 48 horas el Organismo CMVAMADRID ha otorgado 1 concesiones

25-11-2024: FUNDACION-EOI En las últimas 48 horas el Organismo FUNDACION EOI ha otorgado 6 concesiones

Duración del proyecto: 71 meses Fecha Inicio: 2020-11-27
Fecha Fin: 2026-10-31

Líder del proyecto

RUHRUNIVERSITAET BOCHUM

TRL 4-5

Presupuesto del proyecto 2M€

Descripción del proyecto Nuclear physics aims at understanding the emergence and properties of complex structures like atomic nuclei from QCD, the underlying theory of the strong interaction, and addresses some of the Big Science Questions including the origin of the elements, the limits of nuclear stability, searches for physics beyond the Standard Model and physics of neutron stars. Answering these questions requires a reliable theoretical approach to nuclear structure and reactions. Chiral effective field theory (EFT) combined with ab initio many-body methods provides an efficient and well-founded framework, and a major effort is needed to push the precision of nuclear forces and develop an efficient matching with the emerging lattice QCD results. Recently, the PI and his group made significant breakthroughs in the two-nucleon (2N) sector by developing chiral EFT interactions which are more precise than any other potentials and, for the first time, qualify to be regarded as partial wave analysis (PWA). This shows that chiral EFT can, without any compromises on rigor and consistency, be advanced to a precision tool. While the 2N sector can be considered as solved, three-nucleon (3N) scattering data could so far not be described showing that the simplest nuclear system beyond the 2N one is not understood. Given this success in the 2N sector, I propose to perform for the first time a PWA of 3N scattering and to determine the Hamiltonian complete up through fifth order. The project aims at solving the long-standing 3N force challenge and development of accurate, state-of-the-art nuclear forces determined solely by the chiral symmetry of QCD and few-nucleon data. The resulting Hamiltonian will be used in large-scale ab initio calculations of nuclear structure and reactions. We will also develop an efficient interface between lattice QCD and chiral EFT. If successful, these studies will establish a rigorous, fully microscopic approach to nuclear physics firmly rooted in QCD.

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