Abstract
Magnetic-field effects on the 1P o shape resonance of H − lying above the H( N = 2) threshold are investigated theoretically using a method of complex-coordinate rotation. Products of Slater-type orbitals (STO) are used to represent the two-electron wave functions, with l max = 9 being employed for individual electrons. Block matrices with up to L max = 7 (K-states) are used. Convergence behaviour for the resonance parameters (resonance energy and width) is examined by using different values of L max. Magnetic-field effects on both the M L = 0 and M L = ± 1 components of the 1P o shape resonance are investigated.
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