The book deals with the existence, uniqueness, regularity, and asymptotic behavior of solutions to the initial value problem (Cauchy problem) and the initial-Dirichlet problem for a class of degenerate diffusions modeled on the porous medium type equation \(u_t = \Delta u^m\), \(m \geq 0\), \(u \geq 0\). Such models arise in plasma physics, diffusion through porous media, thin liquid film dynamics, as well as in geometric flows such as the Ricci flow on surfaces and the Yamabe flow. The approach presented to these problems uses local regularity estimates and Harnack type inequalities, which yield compactness for families of solutions. The theory is quite complete in the slow diffusion case (\(m>1\)) and in the supercritical fast diffusion case (\(m_c < m < 1\), \(m_c=(n-2)_+/n\)) while many problems remain in the range \(m \leq m_c\). All of these aspects of the theory are discussed in the book.

A publication of the European Mathematical Society (EMS). Distributed within the Americas by the American Mathematical Society.

Readership

Graduate students and research mathematicians interested in analysis.

Table of Contents

• Local regularity and approximation theory
• The Cauchy problem for slow diffusion
• The Cauchy problem for fast diffusion
• The initial Dirichlet problem in an infinite cylinder
• Weak solutions
• Bibliography
• Index