Three-dimensional Gaussian fluctuations of non-commutative random surfaces along time-like paths (1401.5834v3)

Abstract: We construct a continuous-time non-commutative random walk on $U(\mathfrak{gl}_N)$ with dilation maps $U(\mathfrak{gl}_N)\rightarrow L^2(U(N))^{\otimes\infty}$. This is an analog of a continuous-time non-commutative random walk on the group von Neumann algebra $vN(U(N))$ constructed in [15], and is a variant of discrete-time non-commutative random walks on $U(\mathfrak{gl}_N)$ [2,9]. It is also shown that when restricting to the Gelfand-Tsetlin subalgebra of $U(\mathfrak{gl}_N),$ the non-commutative random walk matches a (2+1)-dimensional random surface model introduced in [7]. As an application, it is then proved that the moments converge to an explicit Gaussian field along time-like paths. Combining with [7] which showed convergence to the Gaussian free field along space-like paths, this computes the entire three-dimensional Gaussian field. In particular, it matches a Gaussian field from eigenvalues of random matrices [5].