Null controllability of the 1D heat equation with interior inverse square potential

Pierre Lissy; Tanguy Lourme

doi:10.1016/j.jde.2026.114221

Null controllability of the 1D heat equation with interior inverse square potential

Pierre Lissy
, Tanguy Lourme

Institut Polytechnique de Paris

Research output: Contribution to journal › Article › peer-review

Abstract

This paper aims to answer an open problem posed by Morancey in 2015 concerning the null controllability of the heat equation on (−1,1) with an internal inverse square potential located at x=0. For the range of singularity under study, after having introduced a suitable self-adjoint extension that enables to transmit information from one side of the singularity to another, we prove null-controllability in arbitrary small time, firstly with an internal control supported in an arbitrary measurable set of positive measure, secondly with a boundary control acting on one side of the boundary. Our proof is mainly based on a precise spectral study of the singular operator together with some recent refinements of the Fattorini-Russell moment method. This in particular requires to use some fine (and sometimes new) properties of Bessel functions and their zeros.

Original language	English
Article number	114221
Journal	Journal of Differential Equations
Volume	463
DOIs	https://doi.org/10.1016/j.jde.2026.114221
Publication status	Published - 15 May 2026

Keywords

Bessel functions
Controllability
Self-adjoint extensions
Singular Sturm-Liouville operators
Singular parabolic equation

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10.1016/j.jde.2026.114221

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abstract = "This paper aims to answer an open problem posed by Morancey in 2015 concerning the null controllability of the heat equation on (−1,1) with an internal inverse square potential located at x=0. For the range of singularity under study, after having introduced a suitable self-adjoint extension that enables to transmit information from one side of the singularity to another, we prove null-controllability in arbitrary small time, firstly with an internal control supported in an arbitrary measurable set of positive measure, secondly with a boundary control acting on one side of the boundary. Our proof is mainly based on a precise spectral study of the singular operator together with some recent refinements of the Fattorini-Russell moment method. This in particular requires to use some fine (and sometimes new) properties of Bessel functions and their zeros.",

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T1 - Null controllability of the 1D heat equation with interior inverse square potential

AU - Lissy, Pierre

AU - Lourme, Tanguy

PY - 2026/5/15

Y1 - 2026/5/15

N2 - This paper aims to answer an open problem posed by Morancey in 2015 concerning the null controllability of the heat equation on (−1,1) with an internal inverse square potential located at x=0. For the range of singularity under study, after having introduced a suitable self-adjoint extension that enables to transmit information from one side of the singularity to another, we prove null-controllability in arbitrary small time, firstly with an internal control supported in an arbitrary measurable set of positive measure, secondly with a boundary control acting on one side of the boundary. Our proof is mainly based on a precise spectral study of the singular operator together with some recent refinements of the Fattorini-Russell moment method. This in particular requires to use some fine (and sometimes new) properties of Bessel functions and their zeros.

AB - This paper aims to answer an open problem posed by Morancey in 2015 concerning the null controllability of the heat equation on (−1,1) with an internal inverse square potential located at x=0. For the range of singularity under study, after having introduced a suitable self-adjoint extension that enables to transmit information from one side of the singularity to another, we prove null-controllability in arbitrary small time, firstly with an internal control supported in an arbitrary measurable set of positive measure, secondly with a boundary control acting on one side of the boundary. Our proof is mainly based on a precise spectral study of the singular operator together with some recent refinements of the Fattorini-Russell moment method. This in particular requires to use some fine (and sometimes new) properties of Bessel functions and their zeros.

KW - Bessel functions

KW - Controllability

KW - Self-adjoint extensions

KW - Singular Sturm-Liouville operators

KW - Singular parabolic equation

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DO - 10.1016/j.jde.2026.114221

M3 - Article

AN - SCOPUS:105030371050

SN - 0022-0396

VL - 463

JO - Journal of Differential Equations

JF - Journal of Differential Equations

M1 - 114221

ER -

Null controllability of the 1D heat equation with interior inverse square potential

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Keywords

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