2008
DOI: 10.1016/j.physleta.2008.07.068
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Intertwining operator method and supersymmetry for effective mass Schrödinger equations

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Cited by 27 publications
(37 citation statements)
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“…In the case with a constant weighted energy potential, e.g. q(x) = 1, from our supersymmetry approach we get the supersymmetry for the effective mass Schrödinger equation [23,25]. In the case with constant mass m(x) = m 0 from our approach we obtain the supersymmetry for Schrödinger equation with weighted energy [34].…”
Section: Supersymmetrymentioning
confidence: 85%
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“…In the case with a constant weighted energy potential, e.g. q(x) = 1, from our supersymmetry approach we get the supersymmetry for the effective mass Schrödinger equation [23,25]. In the case with constant mass m(x) = m 0 from our approach we obtain the supersymmetry for Schrödinger equation with weighted energy [34].…”
Section: Supersymmetrymentioning
confidence: 85%
“…(2) and (3) can then be written as one single matrix equation in the form (24) On defining H s = diag(Ᏼ, ) and Φ= (φ, ) T , the above matrix Schrödinger Eq. (24) can be written as (25) where I is the 2 × 2 unity matrix. Similar to the case of the standard Schrödinger equation, we define two supercharge operators Q, Q † as follows: (26) where ᏸ and ᏸ † are the operators given by (17) and (22), respectively.…”
Section: Supersymmetrymentioning
confidence: 99%
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