Exactly solvable potentials and Romanovski polynomials in quantum mechanics.

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Exactly solvable potentials and Romanovski polynomials in quantum mechanics.

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Exactly solvable potentials in quantum mechanics. 4. Hyperbolic Scarf Potential. V. h ... 4.3 Romanovski Polynomials and the non spherical angular functions ... – PowerPoint PPT presentation

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Title: Exactly solvable potentials and Romanovski polynomials in quantum mechanics.

1
Exactly solvable potentials and Romanovski
polynomials in quantum mechanics.

David Edwin Álvarez Castillo
July 16, 2008

2
Classical Orthogonal Polynomials

Legendre
Laguerre
Hermite
Chebyshev
Gegenbauer
Jacobi

Edmond Nicolas Laguerre 1834 - 1886
Adrien Marie Legendre 1752 - 1833
Charles Hermite 1822-1901
Pafnuty Lvovich Chebyshev 1821 - 1894
Carl Gustav Jacobi Jacobi 1804 - 1851
Leopold Bernhard Gegenbauer 1849 - 1903
3
Exactly solvable potentials in quantum mechanics
4
Hyperbolic Scarf Potential
5
Solution
Self-adjoint form
in terms of the Rodrigues formula
6
Real solutions in terms of Romanovski polynomials
7
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8
4.3 Romanovski Polynomials and the non spherical
angular functions
Consider an electron in the following potential
9
The angular equation from the SE has the solution
The total wave function is
10
Relation between the associated Legendre
functions and Romanovski polynomials if c0
(central potential)
11
Spherical Harmonics VS non spherical angular
functions
12
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13
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14
Romanovski polynomials in the trigonometric
Rosen-Morse
15
A taylor expansion shows

First term Coulomb.
Second term linear confinement.
Third term standard centrifugal barrier.

In this sense, Rosen-Morse I can be viewed as
the image of space-like gluon propagation in
coordinate space. Compean, Kirchbach (2006).
16

Advantages of the RMt over the Coulomb potential
lineal (QCD)
Dynamical symmetry O(4),
Exact solutions,
Good description of nucleons spectrum.

17
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18
The nucleon excitation spectrum below 2
GeV. (Courtesy M. Kirchbach)
19
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20
Summary

The Romanovski polynomials appear as the solution
of the Schrodinger equation for the Hyperbolic
Scarf Potential and the Rosen-Morse
trigonometric.
They define new non-spherical angular functions.
The Romanovski polynomials are the main designers
of non--spherical angular functions of a new
type, which we identified with components of the
eigenvectors of the infinite discrete unitary
SU(1,1) representation,

References quant-ph/0603122 arXiv0706.3897
quant-ph/0603232
GRACIAS

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