Quantization of the open string on plane-wave limits of dSn×Sn and non-commutativity outside branes

The open string on the plane-wave limit of dSn×Sn with constant B2 and dilaton background fields is canonically quantized. This entails solving the classical equations of motion for the string, computing the symplectic form, and defining from its inverse the canonical commutation relations. Canonical quantization is proved to be perfectly suited for this task, since the symplectic form is unambiguously defined and non-singular. The string position and the string momentum operators are shown to satisfy equal-time canonical commutation relations. Noticeably the string position operators define non-commutative spaces for all values of the string world-sheet parameter σ, thus extending non-commutativity outside the branes on which the string endpoints may be assumed to move. The Minkowski space-time limit is smooth and reproduces the results in the literature, in particular non-commutativity gets confined to the endpoints.