Multichannel cold spray apparatus

What is claimed is: 1. A cold spray apparatus for applying a coating of particles to a substrate comprising: a nozzle assembly having a plurality of inner passages, each of the inner passages including a nozzle entrance, a nozzle exit, a convergent section, a divergent section, and a throat between the convergent section and the divergent section, each of the plurality of inner passages extending in a flow direction from the convergent section adjacent the nozzle entrance through a throat to the divergent section adjacent the nozzle exit, the plurality of inner passages sharing a common exit out of the nozzle assembly, the nozzle assembly including walls between each of the plurality of inner passages with each of said walls extending in a longitudinal direction toward the common exit, each of said walls extending from the throat of each of the inner passages to a termination point of each of the inner passages; a gas supply member providing a supplied gas to the plurality of inner passages of the nozzle assembly to flow through the plurality of inner passages of the nozzle assembly and accelerate through the plurality of inner passages by passage through the convergent section, the throat, and the divergent section of each of the plurality of inner passages; a particle supply member in direct communication with the plurality of inner passages, the particle supply member supplying the particles directly to the divergent sections to flow the particles in the gas supplied by the gas supply member and out of the nozzle assembly via the common exit toward the substrate to coat the substrate, each of the plurality of inner passages defining an ML distance as a distance between the throat of the inner passage and the termination point of the inner passage, the nozzle assembly defining an DL distance as a distance between the throat of the inner passage and the common exit, the distance the termination point of each of the plurality of inner passages is away from the common exit defining an overlap; and a laser that emits a laser beam that is transmitted through each of the plurality of inner passages containing the supplied gas, the laser heats the particles below the particles' melting point and heats the substrate to promote cold spray coating of the substrate with the particles. 2. The cold spray apparatus of claim 1 wherein each of the convergent sections, the throats, and the divergent sections of the plurality of inner passages is substantially rectangular in cross sectional planes that intersect perpendicularly and transversely to a longitudinal axis of the inner passage. 3. The cold spray apparatus of claim 1 wherein each of the convergent sections of the plurality of inner passages is substantially rectangular in cross sectional planes that intersect perpendicularly and transversely to a longitudinal axis of the inner passage. 4. The cold spray apparatus of claim 1 wherein each of the throats of the plurality of inner passages is substantially square in cross sectional planes that intersect perpendicularly and transversely to a longitudinal axis of the inner passage. 5. The cold spray apparatus of claim 1 wherein each of the divergent sections of the plurality of inner passages is substantially rectangular in cross sectional planes that intersect perpendicularly and transversely to a longitudinal axis of the inner passage. 6. The cold spray apparatus of claim 1 wherein each of the convergent sections and divergent sections of the plurality of inner passages is substantially rectangular in cross sectional planes that intersect perpendicularly and transversely to a longitudinal axis of the inner passage, the convergent sections being substantially rectangular in a first direction and the divergent sections being substantially rectangular in a second direction orthogonal to the first direction. 7. The cold spray apparatus of claim 1 wherein each of the divergent sections of the plurality of inner passages terminates at a position upstream of the common exit. 8. The cold spray apparatus of claim 7 wherein a width of the common exit is substantially equal to or greater than a sum of a width of all nozzle exits of the plurality of all the inner passages. 9. The cold spray apparatus of claim 1 wherein the overlap is greater than about 10%. 10. The cold spray apparatus of claim 1 wherein the overlap is greater than about 20%. 11. The cold spray apparatus of claim 1 , wherein the particle supply member supplying the particles directly to the divergent sections to flow the particles in the gas supplied by the gas supply member, accelerate the particles within the divergent sections, and exit the particles out of the nozzle assembly via the common exit toward the substrate to coat the substrate. 12. The cold spray apparatus of claim 1 , wherein the laser heats the particles below the particles' melting point comprises the laser heating the particles below the particles' melting point only in and downstream of the divergent sections. 13. The cold spray apparatus of claim 1 , wherein the inner passage has a substantially straight longitudinal axis, and wherein the laser beam is directed substantially parallel and coaxial to the longitudinal axis, out of the common exit, and toward the substrate. 14. The cold spray apparatus of claim 13 , wherein the inner passage includes a nozzle entrance, wherein the longitudinal axis extends through both the nozzle entrance and the nozzle exit, and wherein the laser is operably coupled to the nozzle assembly such that the laser beam is transmitted into the nozzle assembly via the nozzle entrance. 15. The cold spray apparatus of claim 1 , further comprising a pressure tube that is disposed between the laser and the nozzle assembly, the pressure tube being in fluid communication with the plurality of inner passages, the gas supply member supplies a gas to the pressure tube to flow through the plurality of inner passages of the nozzle assembly and out of the common exit. 16. The cold spray apparatus of claim 1 wherein the particle supply member introduces the particles into the plurality of inner passages at an acute angle. 17. The cold spray apparatus of claim 1 , further comprising: one or more optical assemblies transmitting a single laser beam from the laser into the plurality of inner passages of the nozzle assembly. 18. The cold spray apparatus of claim 1 wherein the gas supply member supplying the gas to the plurality of inner passages of the nozzle assembly comprises the gas supply member selectively supplying the gas to the plurality of inner passages.