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Main Authors: Cannarsa, Piermarco, Lucarini, Valerio, Martinez, Patrick, Urbani, Cristina, Vancostenoble, Judith
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2604.20339
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_version_ 1866917427969785856
author Cannarsa, Piermarco
Lucarini, Valerio
Martinez, Patrick
Urbani, Cristina
Vancostenoble, Judith
author_facet Cannarsa, Piermarco
Lucarini, Valerio
Martinez, Patrick
Urbani, Cristina
Vancostenoble, Judith
contents We study a two-layer one-dimensional energy balance model, which allows for vertical energy exchanges between a surface layer and the atmosphere, as well as meridional energy transport across latitudes via a diffusion law. The evolution equations of the surface temperature and the atmospheric temperature are coupled by exchange of infrared radiation as well as other non-radiative energy exchanges. The energy enters the system as solar radiation, which is partially absorbed and partially reflected by the two layers. The system is then composed of two degenerate parabolic equations coupled by nonlinear terms, the growth of these terms being crucial for the choice of the functional setting. An essential parameter is the absorptivity of the atmosphere, denoted $\varepsilon _a$, whose value depends critically on greenhouse gases. We prove that blow up in finite time occurs if $\varepsilon _a >2$, while global existence of solutions and the existence of a global attractor hold when $\varepsilon _a \in (0,2)$. Proofs are based on comparison principles that derive from the cooperative structure of the problem, and that provide invariant rectangles for smooth initial conditions, and on regularity properties.
format Preprint
id arxiv_https___arxiv_org_abs_2604_20339
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Comparison principles and long time behavior for a diffusive Energy Balance Model with vertical resolution
Cannarsa, Piermarco
Lucarini, Valerio
Martinez, Patrick
Urbani, Cristina
Vancostenoble, Judith
Analysis of PDEs
35K65, 8610, 35B41, 35B44, 35B50, 35B51
We study a two-layer one-dimensional energy balance model, which allows for vertical energy exchanges between a surface layer and the atmosphere, as well as meridional energy transport across latitudes via a diffusion law. The evolution equations of the surface temperature and the atmospheric temperature are coupled by exchange of infrared radiation as well as other non-radiative energy exchanges. The energy enters the system as solar radiation, which is partially absorbed and partially reflected by the two layers. The system is then composed of two degenerate parabolic equations coupled by nonlinear terms, the growth of these terms being crucial for the choice of the functional setting. An essential parameter is the absorptivity of the atmosphere, denoted $\varepsilon _a$, whose value depends critically on greenhouse gases. We prove that blow up in finite time occurs if $\varepsilon _a >2$, while global existence of solutions and the existence of a global attractor hold when $\varepsilon _a \in (0,2)$. Proofs are based on comparison principles that derive from the cooperative structure of the problem, and that provide invariant rectangles for smooth initial conditions, and on regularity properties.
title Comparison principles and long time behavior for a diffusive Energy Balance Model with vertical resolution
topic Analysis of PDEs
35K65, 8610, 35B41, 35B44, 35B50, 35B51
url https://arxiv.org/abs/2604.20339