Multilayer hydrodynamic sheath flow structure

The invention claimed is: 1. A sheath flow structure for suspending a stream of particles in a sheath fluid, comprising: a primary sheath flow channel having a width and a height for conveying a sheath fluid; a sample inlet intersecting the primary sheath flow channel at a sample injection site for injecting a stream of particles into the sheath fluid conveyed through the primary sheath flow channel; a primary focusing region downstream of the sample injection site to provide at least vertical focusing for the stream of particles; and a secondary focusing region downstream of the primary focusing region to provide at least horizontal focusing of the stream of particles. 2. The microfabricated sheath flow structure of claim 1 , wherein the primary focusing region further provides horizontal focusing of the stream of particles. 3. The microfabricated sheath flow structure of claim 1 , wherein the secondary focusing region further provides vertical focusing. 4. The microfabricated sheath flow structure of claim 1 , wherein a height of the primary sheath flow channel is reduced in the primary focusing region to provide the vertical focusing. 5. The microfabricated sheath flow structure of claim 3 , wherein a height of the primary sheath flow channel is reduced in the secondary focusing region to provide the vertical focusing. 6. The microfabricated sheath flow structure of claim 5 , wherein the reduction in height in the secondary focusing region is a taper. 7. The microfabricated sheath flow structure of claim 1 , wherein the primary sheath flow channel tapers in the secondary focusing region to provide the horizontal focusing. 8. The microfabricated sheath flow structure of claim 2 , wherein the primary sheath flow channel tapers in the primary focusing region to provide the horizontal focusing. 9. The microfabricated sheath flow structure of claim 1 , wherein the primary focusing region further provides horizontal focusing, and wherein the secondary focusing region further provides vertical focusing. 10. The microfabricated sheath flow structure of claim 1 , further comprising a particle sorting system downstream of the secondary focusing region and operatively coupled to the primary sheath flow channel. 11. A microfabricated sheath flow structure for suspending a stream of particles in a sheath fluid, comprising: a primary sheath flow channel having a width and a height for conveying a sheath fluid; a sample inlet intersecting the primary sheath flow channel at a sample injection site for injecting a stream of particles into the sheath fluid conveyed through the primary sheath flow channel; a primary focusing region downstream of the sample injection site to provide vertical focusing to the stream of particles; a secondary focusing region downstream of the primary focusing region to provide vertical and horizontal focusing to the stream of particles by reducing the height and width of the primary sheath flow channel in the secondary focusing region. 12. The microfabricated sheath flow structure of claim 11 , wherein tapers in the primary sheath flow channel cause the reductions in height and width in the secondary focusing region. 13. The microfabricated sheath flow structure of claim 11 , further comprising a particle sorting system downstream of the secondary focusing region and operatively coupled to the primary sheath flow channel.