What question did this study set out to answer?

This research aims to introduce and explore the properties of the Oscillatory Singular Special Function Transform (OSSFT).

April 15, 2026Open Access

Oscillatory Singular Special Function Transform

Key Points

This research aims to introduce and explore the properties of the Oscillatory Singular Special Function Transform (OSSFT).
Introduced a new class of integral transforms called OSSFT.
Established fundamental properties such as boundedness, stability, and compactness.
Proved a Plancherel-type theorem and Heisenberg-type uncertainty inequalities under specific conditions.
Demonstrated that OSSFT has smoothing effects on functions.
Proved spectral discreteness of the associated operators.
Showed Sobolev regularity of the eigenfunctions.

Abstract

We introduce a new class of integral transforms, called the Oscillatory Singular Special Function Transform (OSSFT), whose kernels combine algebraic singularities, nonlinear oscillatory phases, and special-function components of Mittag–Leffler type. Fundamental properties of the OSSFT are established, including boundedness on weighted Lebesgue spaces, stability, compactness, and smoothing effects. Under suitable symmetry and decay conditions, a Plancherel-type theorem and Heisenberg-type uncertainty inequalities are proved. The compactness of the associated operators further yields spectral discreteness and Sobolev regularity of eigenfunctions.

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Cite This Study

Abdul Hamid Ganie (Thu,) studied this question.

synapsesocial.com/papers/69df2c62e4eeef8a2a6b1684 https://doi.org/https://doi.org/10.11948/20260010

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