Long time H^1-stability of fast L2-1_σ method on general nonuniform meshes for subdiffusion equations
In this work, the global-in-time H^1-stability of a fast L2-1_σ method on general nonuniform meshes is studied for subdiffusion equations, where the convolution kernel in the Caputo fractional derivative is approximated by sum of exponentials. Under some mild restrictions on time stepsize, a bilinear form associated with the fast L2-1_σ formula is proved to be positive semidefinite for all time. As a consequence, the uniform global-in-time H^1-stability of the fast L2-1_σ schemes can be derived for both linear and semilinear subdiffusion equations, in the sense that the H^1-norm is uniformly bounded as the time tends to infinity. To the best of our knowledge, this appears to be the first work for the global-in-time H^1-stability of fast L2-1_σ scheme on general nonuniform meshes for subdiffusion equations. Moreover, the sharp finite time H^1-error estimate for the fast L2-1_σ schemes is reproved based on more delicate analysis of coefficients where the restriction on time step ratios is relaxed comparing to existing works.
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