Multilayer hydrodynamic sheath flow structure

The invention claimed is: 1. A flow structure for suspending a particle in a sheath fluid, comprising: a primary flow channel provided within a substrate and configured to convey fluid in a downstream direction; and a sheath fluid distribution system including: a first sheath fluid channel in fluid communication with the primary flow channel at a first sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a first direction away from a first wall of the primary flow channel; and a second sheath fluid channel in fluid communication with the primary flow channel at a second sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a second direction away from a second wall of the primary flow channel, wherein the second sheath fluid introduction region is located downstream from the first sheath fluid introduction region, and wherein a width of the primary flow channel at the first sheath fluid introduction region is greater than a width of the primary flow channel at the second sheath fluid introduction region. 2. A flow structure for suspending a particle in a sheath fluid comprising: a primary flow channel provided within a substrate and configured to convey fluid in a downstream direction; and a sheath fluid distribution system including: a first sheath fluid channel in fluid communication with the primary flow channel at a first sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a first direction away from a first wall of the primary flow channel; and a second sheath fluid channel in fluid communication with the primary flow channel at a second sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a second direction away from a second wall of the primary flow channel, wherein the second sheath fluid introduction region is located downstream from the first sheath fluid introduction region, and wherein the first sheath fluid channel is one of a pair of sheath fluid channels symmetrically arranged with respect to the primary flow channel. 3. A flow structure for suspending a particle in a sheath fluid, comprising: a primary flow channel provided within a substrate and configured to convey fluid in a downstream direction; and a sheath fluid distribution system including: a first sheath fluid channel in fluid communication with the primary flow channel at a first sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a first direction away from a first wall of the primary flow channel; and a second sheath fluid channel in fluid communication with the primary flow channel at a second sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a second direction away from a second wall of the primary flow channel, wherein the second sheath fluid introduction region is located downstream from the first sheath fluid introduction region, and wherein the first and second sheath fluid channels are configured to receive sheath fluid from a common sheath fluid inlet. 4. The flow structure of claim 3 , further comprising: a sample fluid inlet provided on a surface of the substrate and configured to receive a sample fluid; the common sheath fluid inlet provided on a surface of the substrate and configured to receive a sheath fluid; and the sample fluid inlet in fluid communication with a sample introduction region of the primary flow channel. 5. The flow structure of claim 4 , wherein sheath fluid is introduced into the primary flow channel at the first sheath fluid introduction region from a first side of the primary flow channel and sheath fluid is introduced into the primary flow channel at the second sheath fluid introduction region from a second side of the primary flow channel that is opposite to the first side. 6. The flow structure of claim 4 , wherein the primary flow channel includes a focusing region downstream of a sample introduction region that accelerates the sheath fluid and focuses a sample fluid. 7. The flow structure of claim 6 , wherein the focusing region has a thickness dimension that has microscale dimensions. 8. The flow structure of claim 4 , wherein the sample fluid inlet and the sheath fluid inlet are located on the same surface of the substrate. 9. The flow structure of claim 4 , wherein sample fluid is introduced into the sample introduction region along a centerline of the primary flow channel. 10. The flow structure of claim 3 , wherein a sample introduction region is positioned downstream of the first sheath fluid introduction region. 11. The flow structure of claim 3 , further comprising: a sample fluid inlet in fluid communication with the primary flow channel for injecting a particle into the primary flow channel. 12. The flow structure of claim 3 , wherein the primary flow channel has a tapered region at least partially positioned between the first sheath fluid introduction region and the second sheath fluid introduction region. 13. The flow structure of claim 12 , wherein the first sheath fluid introduction region introduces sheath fluid into the primary flow channel at the upstream end of the tapered region. 14. The flow structure of claim 12 , further comprising: a sample fluid inlet in fluid communication with the primary flow channel for injecting sample fluid into the tapered region of the primary flow channel. 15. A flow structure for suspending a particle in a sheath fluid, comprising: a primary flow channel provided within a substrate and configured to convey fluid in a downstream direction; a sheath fluid distribution system including: a first sheath fluid channel in fluid communication with the primary flow channel at a first sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a first direction away from a first wall of the primary flow channel; and a second sheath fluid channel in fluid communication with the primary flow channel at a second sheath fluid introduction region for injecting sheath fluid into the primary flow channel in a second direction away from a second wall of the primary flow channel, wherein the second sheath fluid introduction region is located downstream from the first sheath fluid introduction region; a sample fluid inlet provided on a surface of the substrate and configured to receive a sample fluid; and a sheath fluid inlet provided on a surface of the substrate and configured to receive a sheath fluid, wherein the sample fluid inlet is in fluid communication with a sample introduction region of the primary flow channel, and wherein the sample fluid inlet and the sheath fluid inlet are located on the same surface of the substrate. 16. The flow structure of claim 15 , wherein the sheath fluid distribution system includes a sheath fluid inlet and wherein the first and second sheath fluid channels extend between the first sheath fluid inlet and the primary flow channel. 17. The flow structure of claim 15 , wherein a top of the primary flow channel and a bottom of the primary flow channel extend across a width of the primary flow channel and wherein sheath fluid is introduced into the primary flow channel at the first sheath fluid introduction region from one of the top and the bottom of the primary flow channel and wherein sheath fluid is introduced into the primary flow channel at the second sheath fluid introduction region from the other of the top and the bottom of the primary flow channel. 1