Long-time asymptotics for fully nonlinear homogeneous parabolic equations

Abstract

We study the long-time asymptotics of solutions of the uniformly parabolic equation \[ ut + F(D2u) = 0 in n× +, \] for a positively homogeneous operator F, subject to the initial condition u(x,0) = g(x), under the assumption that g does not change sign and possesses sufficient decay at infinity. We prove the existence of a unique positive solution + and negative solution -, which satisfy the self-similarity relations \[ (x,t) = λα (λ1/2 x, λ t). \] We prove that the rescaled limit of the solution of the Cauchy problem with nonnegative (nonpositive) initial data converges to + (-) locally uniformly in n × +. The anomalous exponents α+ and α- are identified as the principal half-eigenvalues of a certain elliptic operator associated to F in n.