One of the key challenges in ab initio nuclear theory is to understand the emergence of nuclear structure from quantum chromodynamics. I will address this challenge and focus on the statistical aspects of uncertainty quantification and parameter estimation in chiral effective field theory
Are chiral theories at present describing experimental NN scattering data satisfactorily? Will the c...
Chiral effective field theory (chi EFT), as originally proposed by Weinberg, promises a theoretical ...
We compute the S-factor of the proton-proton (pp) fusion reaction using chiral effective field theor...
The scientific method implies a dynamical relationship between experiment and theory. Indeed, experi...
The nuclear force is a residual interaction between bound states of quarks and gluons. The most fund...
Chiral effective field theory (χEFT) provides a systematic approach to describe low-energy nuclear f...
We present theoretical ground state energies and their uncertainties for p-shell nuclei obtained fro...
In this thesis we explore the merits of chiral effective field theory (χEFT) as a model for low-ener...
Chiral effective field theory complements numerical simulations of quantum chromodynamics on a space...
Quantum Chromodynamcs (QCD) is now established as the theory of strong interactions. A plethora of h...
Effective field theory is considered to provide a highly useful framework for connecting nuclear phy...
Ab initio calculations of nuclei from the valley of stability to the drip lines are a prime challeng...
High-performance computing is now enabling the calculation of certain hadronic interaction parameter...
In this Thesis, we study nuclear reactions and interactions for heavy nuclei based on chiral effecti...
With the goal of developing predictive ab initio capability for light and medium-mass nuclei, two-nu...
Are chiral theories at present describing experimental NN scattering data satisfactorily? Will the c...
Chiral effective field theory (chi EFT), as originally proposed by Weinberg, promises a theoretical ...
We compute the S-factor of the proton-proton (pp) fusion reaction using chiral effective field theor...
The scientific method implies a dynamical relationship between experiment and theory. Indeed, experi...
The nuclear force is a residual interaction between bound states of quarks and gluons. The most fund...
Chiral effective field theory (χEFT) provides a systematic approach to describe low-energy nuclear f...
We present theoretical ground state energies and their uncertainties for p-shell nuclei obtained fro...
In this thesis we explore the merits of chiral effective field theory (χEFT) as a model for low-ener...
Chiral effective field theory complements numerical simulations of quantum chromodynamics on a space...
Quantum Chromodynamcs (QCD) is now established as the theory of strong interactions. A plethora of h...
Effective field theory is considered to provide a highly useful framework for connecting nuclear phy...
Ab initio calculations of nuclei from the valley of stability to the drip lines are a prime challeng...
High-performance computing is now enabling the calculation of certain hadronic interaction parameter...
In this Thesis, we study nuclear reactions and interactions for heavy nuclei based on chiral effecti...
With the goal of developing predictive ab initio capability for light and medium-mass nuclei, two-nu...
Are chiral theories at present describing experimental NN scattering data satisfactorily? Will the c...
Chiral effective field theory (chi EFT), as originally proposed by Weinberg, promises a theoretical ...
We compute the S-factor of the proton-proton (pp) fusion reaction using chiral effective field theor...
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