Structure of hypernuclei studied with the integrodifferential equations approach

Nkuna, John Solly

06 1900

A two-dimensional integrodi erential equation resulting from the use of potential harmonics expansion in the many-body Schr odinger equation is used to study ground-state properties of selected few-body nuclear systems. The equation takes into account twobody correlations in the system and is applicable to few- and many-body systems. The formulation of the equation involves the use of the Jacobi coordinates to de ne relevant global coordinates as well as the elimination of center-of-mass dependence. The form of the equation does not depend on the size of the system. Therefore, only the interaction potential is required as input. Di erent nucleon-nucleon potentials and hyperon-nucleon potentials are employed to construct the Hamiltonian of the systems. The results obtained are in good agreement with those obtained using other methods. / Physics

Integrodi erential equation

Hypernuclei

Schr odinger equation

Adiabatic approximation

Potential harmonics

Hyperspherical harmonics

Few-Body systems

515.38

Schrodinger equation

Few-body problem

Nuclear physics

Structure of hypernuclei studied with the integrodifferential equations approach

Nkuna, John Solly

06 1900

A two-dimensional integrodi erential equation resulting from the use of potential harmonics expansion in the many-body Schr odinger equation is used to study ground-state properties of selected few-body nuclear systems. The equation takes into account twobody correlations in the system and is applicable to few- and many-body systems. The formulation of the equation involves the use of the Jacobi coordinates to de ne relevant global coordinates as well as the elimination of center-of-mass dependence. The form of the equation does not depend on the size of the system. Therefore, only the interaction potential is required as input. Di erent nucleon-nucleon potentials and hyperon-nucleon potentials are employed to construct the Hamiltonian of the systems. The results obtained are in good agreement with those obtained using other methods. / Physics / M.Sc. (Physics)

Integrodi erential equation

Hypernuclei

Schr odinger equation

Adiabatic approximation

Potential harmonics

Hyperspherical harmonics

Few-Body systems

515.38

Schrodinger equation

Few-body problem

Nuclear physics