Self-similar solutions for a quenching problem with spatially dependent nonlinearity
DOI10.1016/j.na.2016.08.026zbMath1416.34008OpenAlexW2522178126MaRDI QIDQ334091
Shoji Yotsutani, Jong-Shenq Guo, Yoshihisa Morita
Publication date: 31 October 2016
Published in: Nonlinear Analysis. Theory, Methods \& Applications. Series A: Theory and Methods (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/j.na.2016.08.026
Nonlinear parabolic equations (35K55) Nonlinear boundary value problems for ordinary differential equations (34B15) Nonlinear ordinary differential equations and systems (34A34) Singularities, blow-up, stress concentrations for dynamical problems in solid mechanics (74H35)
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Cites Work
- Unnamed Item
- Dead-core rates for the heat equation with a spatially dependent strong absorption
- On a general family of nonautonomous elliptic and parabolic equations
- On the partial differential equations of electrostatic MEMS devices. III: Refined touchdown behavior
- On the partial differential equations of electrostatic MEMS devices. II: Dynamic case
- Global solutions of singular parabolic equations arising from electrostatic MEMS
- Asymptotic behavior of touch-down solutions and global bifurcations for an elliptic problem with a singular nonlinearity
- On similarity solutions of a heat equation with a nonhomogeneous nonlinearity
- Fast rate of formation of dead-core for the heat equation with strong absorption and applications to fast blow-up
- Touchdown and related problems in electrostatic MEMS device equation
- On the quenching behavior of the solution of a semilinear parabolic equation
- Analysis of the Dynamics and Touchdown in a Model of Electrostatic MEMS
- Non-self-similar dead-core rate for the fast diffusion equation with strong absorption
- On the Partial Differential Equations of Electrostatic MEMS Devices: Stationary Case
- Recent developments on a nonlocal problem arising in the micro-electro mechanical system
- No Touchdown at Zero Points of the Permittivity Profile for the MEMS Problem
- Touchdown and Pull-In Voltage Behavior of a MEMS Device with Varying Dielectric Properties
- Nonlocal problems in MEMS device control
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