Download presentation
Presentation is loading. Please wait.
Published byEmma French Modified over 8 years ago
1
A NALYTICAL S OLUTION THE R ADIAL S CHRÖDINGER E QUATION FOR THE Q UARK - A NTIQUARK S YSTEM S. M. Kuchin The I.G. Petrovsky Bryansk State University N. V. Maksimenko The F. Skorina Gomel State University,
2
I NTRODUCTION The solution of the spectral problem for the Schrodinger equation with spherically symmetric potentials is of major concern in describing the spectra of quarkonia. Potential models offer a rather good description of the mass spectra of systems such as a quarkonium, a charmonium, etc. In simulating the interaction potentials for these systems, confining-type potentials are generally used. The holding potentials can be of any form. For instance, a variety of this type of potential is the so-called Cornel potential with two terms one of which is responsible for the Coulomb interaction of quarks and the other corresponds to a confining potential. Though this potential, proposed to describe quarkonia with heavy quarks, has been used for a long time, nevertheless the problem of finding the interquark potential still remains incompletely solved. To solve this problem is necessary both for finding the mass spectrum of bound states and for describing the electromagnetic characteristics of mesons.
4
THE NIKIFOROV–UVAROV METHOD
7
THE SCHRÖDINGER EQUATION
10
S UBSTITUTING THIS INTO THE RADIAL S CHRÖDINGER EQUATION, WE OBTAIN
11
I N THIS CASE
12
THE SOLUTION OF THE SCHRÖDINGER EQUATION
15
DEPENDENCE THE BINDING ENERGY OF THE QUARK MASS
19
C ONCLUSIONS Thus, in this work, the analytical expressions for the wave functions and energy eigenvalues of the Schrödinger equation with the Cornell potential. All calculations are carried out in good agreement with the available experimental data, and the process of determining the energy spectrum and eigenfunctions of the Schrödinger equation in this approach is much simpler than using the standard perturbation theory or other methods. The analytical solutions can be used not only to describe the mass spectrum of the quark-antiquark systems, but also other characteristics.
20
Thank you for attention
Similar presentations
© 2024 SlidePlayer.com. Inc.
All rights reserved.