S. Sree Ranjani scite author profile

The bound state wave functions for a wide class of exactly solvable potentials are found utilizing the quantum Hamilton-Jacobi formalism of Leacock and Padgett. It is shown that, exploiting the singularity structure of the quantum momentum function, until now used only for obtaining the bound state energies, one can straightforwardly find both the eigenvalues and the corresponding eigenfunctions. After demonstrating the working of this approach through a few solvable examples, we consider Hamiltonians, which exhibit broken and unbroken phases of supersymmetry. The natural emergence of the eigenspectra and the wave functions, in both unbroken and the algebraically non-trivial broken phase, demonstrates the utility of this formalism. * akksprs@uohyd.ernet.in † akksprs@uohyd.ernet.in ‡ akksp@uohyd.ernet.in § prasanta@prl.ernet.in

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A study of quasi-exactly solvable models within the quantum Hamilton Jacobi formalism

Geojo¹,

Ranjani²,

Kapoor³

2003

J. Phys. A: Math. Gen.

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Exceptional orthogonal polynomials, QHJ formalism and SWKB quantization condition

Ranjani¹,

Panigrahi²,

Khare³

et al. 2012

J. Phys. A: Math. Theor.

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We study the quantum Hamilton-Jacobi (QHJ) equation of the recently obtained exactly solvable models, related to the newly discovered exceptional polynomials and show that the QHJ formalism reproduces the exact eigenvalues and the eigenfunctions. The fact that the eigenfunctions have zeros and poles in complex locations leads to an unconventional singularity structure of the quantum momentum function p(x), the logarithmic derivative of the wave function, which forms the crux of the QHJ approach to quantization. A comparison of the singularity structure for these systems with the known exactly solvable and quasi-exactly solvable models reveals interesting differences. We find that the singularity structure of the momentum function for these new potentials lies between the above two distinct models, sharing similarities with both of them. This prompted us to examine the exactness of the supersymmetric WKB (SWKB) quantization condition. The interesting singularity structure of p(x) and of the superpotential for these models has important consequences for the SWKB rule and in our proof of its exactness for these quantal systems.

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Exceptional polynomials and SUSY quantum mechanics

et al. 2015

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We show that the existence of exceptional polynomials leads to the presence of non-trivial supersymmetry. The existence of these polynomials reveals several distinct isospectral potentials for the Schrödinger equation. All Schrödinger equations having Laguerre and Jacobi polynomials as their solutions, have non-trivial supersymmetric partners with corresponding exceptional polynomials as solutions. * 1 chaitanya@imsc.res.in, 3 pprasanta@iiserkol.ac.in

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Quantum Hamilton–jacobi Analysis of Pt Symmetric Hamiltonians

Ranjani

Kapoor

Panigrahi

2005

Int. J. Mod. Phys. A

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We apply the quantum Hamilton-Jacobi formalism, naturally defined in the complex domain, to a number of complex Hamiltonians, characterized by discrete parity and time reversal (PT) symmetries and obtain their eigenvalues and eigenfunctions.Examples of both quasi-exactly and exactly solvable potentials are analyzed and the subtle differences, in the singularity structures of their quantum momentum functions, are pointed out. The role of the PT symmetry in the complex domain is also illustrated.

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S. Sree Ranjani

Bound State Wave Functions Through the Quantum Hamilton–jacobi Formalism

A study of quasi-exactly solvable models within the quantum Hamilton Jacobi formalism

Exceptional orthogonal polynomials, QHJ formalism and SWKB quantization condition

Exceptional polynomials and SUSY quantum mechanics

Quantum Hamilton–jacobi Analysis of Pt Symmetric Hamiltonians

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