Journal of the Ramanujan Mathematical Society

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Conservation and Invariance Properties of Submarkovian Semigroups


Affiliations
1 Department of Mathematics, University of Auckland, Private Bag 92019, Auckland, New Zealand
2 Centre for Mathematics and its Applications, Mathematical Sciences Institute, Australian National University, Canberra, ACT 0200, Australia
     

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Let ε be a Dirichlet form on L2(X) and Ω an open subset of X. Then one can define Dirichlet forms εD, or εN, corresponding to ε but with Dirichlet, or Neumann, boundary conditions imposed on the boundary ∂Ω of Ω. If S, SD and SN are the associated submarkovian semigroups we prove, under general assumptions of regularity and locality, that St φ= SDt φ for all φ∈L2(Ω) and t>0 if and only if the capacity capΩ(∂Ω) of ∂Ω relative to Ω is zero. Moreover, if S is conservative, i.e. stochastically complete, then capΩ(∂Ω)=0 if and only if SD is conservative on L2(Ω). Under slightly more stringent assumptions we also prove that the vanishing of the relative capacity is equivalent to SDt φ=SNt φ for all φ∈L2(Ω) and t>0.
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  • Conservation and Invariance Properties of Submarkovian Semigroups

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Authors

A. F. M. Ter Elst
Department of Mathematics, University of Auckland, Private Bag 92019, Auckland, New Zealand
Derek W. Robinson
Centre for Mathematics and its Applications, Mathematical Sciences Institute, Australian National University, Canberra, ACT 0200, Australia

Abstract


Let ε be a Dirichlet form on L2(X) and Ω an open subset of X. Then one can define Dirichlet forms εD, or εN, corresponding to ε but with Dirichlet, or Neumann, boundary conditions imposed on the boundary ∂Ω of Ω. If S, SD and SN are the associated submarkovian semigroups we prove, under general assumptions of regularity and locality, that St φ= SDt φ for all φ∈L2(Ω) and t>0 if and only if the capacity capΩ(∂Ω) of ∂Ω relative to Ω is zero. Moreover, if S is conservative, i.e. stochastically complete, then capΩ(∂Ω)=0 if and only if SD is conservative on L2(Ω). Under slightly more stringent assumptions we also prove that the vanishing of the relative capacity is equivalent to SDt φ=SNt φ for all φ∈L2(Ω) and t>0.