A Realistic Three-Dimensional Calculation of 3H Binding Energy

S. Bayegan; M. R. Hadizadeh; and M. Harzchi

arXiv:0711.4036·nucl-th·January 16, 2009

A Realistic Three-Dimensional Calculation of 3H Binding Energy

S. Bayegan, M. R. Hadizadeh, and M. Harzchi

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TL;DR

This paper presents a realistic 3D calculation of the tritium (3H) binding energy using Faddeev equations in momentum space, providing a more accurate understanding of three-nucleon systems.

Contribution

It introduces a novel three-dimensional approach to solve Faddeev equations for three-nucleon bound states with realistic potentials.

Findings

01

Successful calculation of 3H binding energy

02

Demonstrates effectiveness of 3D Faddeev approach

03

Provides results consistent with experimental data

Abstract

A recently developed three-dimensional Faddeev integral equations for three-nucleon bound state with two-nucleon interactions have been solved in momentum space for Bonn-B potential.

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