Fluid ejection devices

What is claimed is: 1. A fluid ejector comprising: a nozzle layer having an outer surface, and inner surface, and a nozzle extending between the inner surface and the outer surface, the nozzle having an entrance at the inner surface to receive fluid and an exit opening at an outer surface for ejection of fluid; a body to which the inner surface of the nozzle layer is secured, the body including a pumping chamber, a return channel, and a first passage fluidly connecting the pumping chamber to the entrance of the nozzle; a second passage fluidly connecting the entrance of the nozzle to the return channel; an actuator configured to cause fluid to flow out of the pumping chamber such that actuation of the actuator causes fluid to be ejected from the nozzle; a first membrane disposed between the actuator and the pumping chamber; and a second membrane different from the first membrane, the second membrane positioned across and partially blocking the entrance of the nozzle, the membrane having at least one hole therethrough such that in operation of the fluid ejector fluid flows through the at least one hole in the membrane. 2. The fluid ejector of claim 1 , wherein the second membrane and hole are configured such that the first passage has a first impedance when fluid is being ejected from the nozzle and a second impedance when fluid is not being ejected from the nozzle. 3. The fluid ejector of claim 2 , wherein the first impedance is greater than the second impedance. 4. The fluid ejector of claim 2 , wherein the second membrane is configured such that the second passage has a maximum impedance at or around a resonance frequency of the nozzle. 5. The fluid ejector of claim 1 , wherein the second membrane extends substantially parallel to the outer surface. 6. The fluid ejector of claim 1 , wherein the second membrane has a plurality of holes therethrough. 7. The fluid ejector of claim 6 , wherein the plurality of holes are spaced uniformly across the second membrane. 8. The fluid ejector of claim 1 , wherein the first membrane extends parallel to the outer surface and spans the fluid ejector. 9. The fluid ejector of claim 8 , wherein the membrane layer is between the body and the nozzle layer. 10. The fluid ejector of claim 1 , wherein the hole is spaced away from walls of the nozzle on all sides of the hole. 11. The fluid ejector of claim 1 , wherein the second membrane projects inwardly substantially perpendicular to walls of the nozzle. 12. The fluid ejector of claim 1 , wherein the second membrane is formed of a material that has a lower elastic modulus than an elastic modulus of a material forming walls of the nozzle. 13. The fluid ejector of claim 1 , wherein the second membrane is more flexible than walls of the nozzle. 14. The fluid ejector of claim 1 , wherein the hole through the second membrane is narrower than the exit opening of the nozzle. 15. The fluid ejector of claim 1 , wherein the second membrane is formed of an oxide. 16. The fluid ejector of claim 15 , wherein the second membrane has a thickness between about 0.5 μm and about 5 μm. 17. The fluid ejector of claim 1 , wherein the second membrane is formed of a polymer. 18. The fluid ejector of claim 17 , wherein the second membrane has a thickness between about 10 μm and about 30 μm.