Blow-Up Result for a Weakly Coupled System of Two Euler–Poisson–Darboux–Tricomi Equations With Time Derivative Nonlinearity

Mohamed Fahmi Ben Hassen; Makram Hamouda; Mohamed Ali Hamza

doi:10.1002/mma.11078

Blow-Up Result for a Weakly Coupled System of Two Euler–Poisson–Darboux–Tricomi Equations With Time Derivative Nonlinearity

Mohamed Fahmi Ben Hassen
, Makram Hamouda^*
, Mohamed Ali Hamza

^*Corresponding author for this work

Department of Basic Sciences

Imam Abdulrahman Bin Faisal University

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

1 Scopus citations

Abstract

We study in this article the blowup of solutions to a coupled semilinear wave equations that are characterized by linear damping terms in the scale-invariant regime, time-derivative nonlinearities, mass, and Tricomi terms. The latter are specifically of great interest from both physical and mathematical points of view as they allow the speeds of propagation to be time-dependent ones. However, we assume in this work that both waves are propagating with the same speeds. Employing this fact together with other hypotheses on the aforementioned parameters (mass and damping coefficients), we obtain a new blow-up region for the system under consideration, and we show a lifespan estimate of the maximal existence time.

Original language	English
Pages (from-to)	12989-13000
Number of pages	12
Journal	Mathematical Methods in the Applied Sciences
Volume	48
Issue number	13
DOIs	https://doi.org/10.1002/mma.11078
State	Published - Sep 2025

Keywords

Glassey exponent
blowup
lifespan
nonlinear wave equations
scale-invariant damping
semilinear weakly coupled system
time-derivative nonlinearity

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10.1002/mma.11078

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title = "Blow-Up Result for a Weakly Coupled System of Two Euler–Poisson–Darboux–Tricomi Equations With Time Derivative Nonlinearity",

abstract = "We study in this article the blowup of solutions to a coupled semilinear wave equations that are characterized by linear damping terms in the scale-invariant regime, time-derivative nonlinearities, mass, and Tricomi terms. The latter are specifically of great interest from both physical and mathematical points of view as they allow the speeds of propagation to be time-dependent ones. However, we assume in this work that both waves are propagating with the same speeds. Employing this fact together with other hypotheses on the aforementioned parameters (mass and damping coefficients), we obtain a new blow-up region for the system under consideration, and we show a lifespan estimate of the maximal existence time.",

keywords = "Glassey exponent, blowup, lifespan, nonlinear wave equations, scale-invariant damping, semilinear weakly coupled system, time-derivative nonlinearity",

author = "\{Fahmi Ben Hassen\}, Mohamed and Makram Hamouda and \{Ali Hamza\}, Mohamed",

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T1 - Blow-Up Result for a Weakly Coupled System of Two Euler–Poisson–Darboux–Tricomi Equations With Time Derivative Nonlinearity

AU - Fahmi Ben Hassen, Mohamed

AU - Hamouda, Makram

AU - Ali Hamza, Mohamed

PY - 2025/9

Y1 - 2025/9

N2 - We study in this article the blowup of solutions to a coupled semilinear wave equations that are characterized by linear damping terms in the scale-invariant regime, time-derivative nonlinearities, mass, and Tricomi terms. The latter are specifically of great interest from both physical and mathematical points of view as they allow the speeds of propagation to be time-dependent ones. However, we assume in this work that both waves are propagating with the same speeds. Employing this fact together with other hypotheses on the aforementioned parameters (mass and damping coefficients), we obtain a new blow-up region for the system under consideration, and we show a lifespan estimate of the maximal existence time.

AB - We study in this article the blowup of solutions to a coupled semilinear wave equations that are characterized by linear damping terms in the scale-invariant regime, time-derivative nonlinearities, mass, and Tricomi terms. The latter are specifically of great interest from both physical and mathematical points of view as they allow the speeds of propagation to be time-dependent ones. However, we assume in this work that both waves are propagating with the same speeds. Employing this fact together with other hypotheses on the aforementioned parameters (mass and damping coefficients), we obtain a new blow-up region for the system under consideration, and we show a lifespan estimate of the maximal existence time.

KW - Glassey exponent

KW - blowup

KW - lifespan

KW - nonlinear wave equations

KW - scale-invariant damping

KW - semilinear weakly coupled system

KW - time-derivative nonlinearity

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DO - 10.1002/mma.11078

M3 - Article

AN - SCOPUS:105006470977

SN - 0170-4214

VL - 48

SP - 12989

EP - 13000

JO - Mathematical Methods in the Applied Sciences

JF - Mathematical Methods in the Applied Sciences

IS - 13

ER -

Blow-Up Result for a Weakly Coupled System of Two Euler–Poisson–Darboux–Tricomi Equations With Time Derivative Nonlinearity

Abstract

Keywords

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