论文信息 - Algebraic approach to pseudospin symmetry for the Dirac equation with scalar and vector modified Pöschl-Teller potentials

Algebraic approach to pseudospin symmetry for the Dirac equation with scalar and vector modified Pöschl-Teller potentials

By the algebraic method we study the approximate solution to the Dirac equation with scalar and vector modified Poschl-Teller (MPT) potentials carrying pseudospin symmetry. The transcendental energy equation and spinor wave functions with arbitrary spin-orbit coupling quantum number k are presented. It is found that there exist only negative-energy states for bound states under pseudospin symmetry, and the energy levels will approach a constant when the potential parameter α goes to zero. There also exist the corresponding degenerate states between (n+1, k- 2) and (n, k) in the case of pseudospin symmetry.

Gao-Feng Wei | S. Dong | Shi-Hai Dong | Gao-Feng Wei

[1] M. Fiolhais,et al. Pseudospin symmetry and the relativistic harmonic oscillator , 2003, nucl-th/0310071.

[2] Leander,et al. Abundance and systematics of nuclear superdeformed states; relation to the pseudospin and pseudo-SU(3) symmetries. , 1987, Physical review letters.