A Martingale Approach to Noncommutative Stochastic Calculus
Abstract
We present a new approach to noncommutative stochastic calculus that is, like the classical theory, based primarily on the martingale property. Using this approach, we introduce a general theory of stochastic integration and quadratic (co)variation for a certain class of noncommutative processes -- analogous to semimartingales -- that includes both the $q$-Brownian motions and classical $n \times n$ matrix-valued Brownian motions. As applications, we obtain Burkholder-Davis-Gundy inequalities (with $p \geq 2$) for continuous-time noncommutative martingales and a noncommutative It\^{o} formula for "adapted $C^2$ maps," including trace $\ast$-polynomial maps and operator functions associated to the noncommutative $C^2$ scalar functions $\mathbb{R} \to \mathbb{C}$ introduced by Nikitopoulos, as well as the more general multivariate tracial noncommutative $C^2$ functions introduced by Jekel-Li-Shlyakhtenko.
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