Magnetic particle separator

I claim: 1. A magnetic particle separator, comprising: an elongate hollow channel extending along a longitudinal axis, the elongate hollow channel having opposed inlet and outlet ends; a mixture port in communication with the inlet end of the elongate hollow channel for injecting a mixture of at least first and second magnetic particles into the elongate hollow channel, wherein the at least first and second magnetic particles have separate and distinct properties with respect to one another, the properties being selected from the group consisting of magnetic susceptibility, size, mass and a combination thereof; a buffer port in communication with the inlet end of the elongate hollow channel for injecting a buffer solution into the elongate hollow channel, such that the mixture of the at least first and second magnetic particles in the buffer solution flow unencumbered and completely through the elongate hollow channel along the longitudinal direction toward the outlet end thereof, wherein the buffer port comprises first and second branches positioned symmetrically about the mixture port, such that flow of the buffer solution from both of the first and second branches hydraulically focuses flow of the mixture of the first and second magnetic particles in the buffer solution through the elongate hollow channel; a first outlet channel disposed at the outlet end of the elongate hollow channel, wherein the first outlet channel has a first width; a second outlet channel disposed at the outlet end of the elongate hollow channel, wherein the second outlet channel has a second width, the second outlet channel also being in communication with the first outlet channel at a junction therebetween, wherein the first and second outlet channels being positioned concentrically such that the first outlet channel has a larger radius than the second outlet channel, further wherein the first and second outlet channels extend laterally and symmetrically from the junction between the first and second outlet channels and the outlet end of the hollow channel; an externally magnetizable wire extending along a transverse axis orthogonal to the longitudinal axis, the externally magnetizable wire having a third width, wherein the third width is greater than either of the first or second widths of the outlet channels, the externally magnetizable wire being positioned solely contiguous to the second outlet channel and longitudinally opposed to the junction; and at least one magnetic source for generating an external magnetic field along a lateral axis substantially orthogonal to the longitudinal axis and the transverse axis, wherein the external magnetic field generates an induced magnetic field in the externally magnetizable wire, the induced magnetic field applying a repulsive magnetic force to the at least first and second magnetic particles, the at least first and second magnetic particles being separated to flow into the first and second outlet channels due to their separate and distinct properties. 2. The magnetic particle separator as recited in claim 1 , wherein each of the first and second outlet channels is elliptical. 3. The magnetic particle separator as recited in claim 1 , wherein said elongate hollow channel is rectangular in cross section. 4. The magnetic particle separator as recited in claim 1 , further comprising at least one receptacle for receiving at least one separated volume of the at least first and second magnetic particles.