Delayed optical logic gates for boolean algebra

The invention claimed is: 1. A method for operating a logical gate using at least one or more delayed optical routers comprising a nonlinear optical medium, wherein the nonlinear optical medium comprises two closely spaced ground states such that a transition between the two ground states is dipole forbidden, and an excited state such that two-photon transitions between the two ground states via the excited state are allowed, the method comprising: using at least one of a slow light (S) and a non-degenerate four-wave mixing signal (D) as a result of Boolean algebra, wherein the slow light (S) is appeared by applying, to the nonlinear optical medium, a first laser beam (P) with a first frequency corresponding to a first transition between a first ground state of the two ground states and the excited state and a second laser beam (C) with a second frequency corresponding to a second transition between a second ground state of the two ground states and the excited state; and the non-degenerate four-wave mixing signal (D) is appeared by applying, to the nonlinear optical medium, the first laser beam (P) with the first frequency, the second laser beam (C) with the second frequency and a third laser beam (A) with a third frequency corresponding to the second transition, wherein the first laser beam (P) and the third laser beam (A) correspond to inputs of a Boolean NOT algebra, and the appearance or disappearance of the slow light (S) corresponds to a result of the Boolean NOT algebra. 2. An apparatus for an optical logic gate, comprising: at least one or more delayed optical routers including at least one nonlinear optical medium, wherein the nonlinear optical medium comprises two closely spaced ground states such that a transition between the two ground states is dipole forbidden, and an excited state such that two-photon transitions between the two ground states via the excited state are allowed; at least one port for outputting a result of the optical logic gate, wherein the result is represented as at least one or more of a slow light (S) and a non-degenerate four-wave mixing signal (D), the slow light (S) is appeared by applying, to the nonlinear optical medium, a first laser beam (P) with a first frequency corresponding to a first transition between a first ground state of the two ground states and the excited state and a second laser beam (C) with a second frequency corresponding to a second transition between a second ground state of the two ground states and the excited state; and the non-degenerate four-wave mixing signal (D) is appeared by applying, to the nonlinear optical medium, the first laser beam (P) with the first frequency, the second laser beam (C) with the second frequency and a third laser beam (A) with a third frequency corresponding to the second transition, wherein the first laser beam (P) and the third laser beam (A) correspond to inputs of a Boolean NOT algebra, and the appearance or disappearance of the slow light (S) corresponds to a result of the Boolean NOT algebra.