Actuators for fluid delivery systems

What is claimed is: 1. A printhead comprising: a fluid ejector comprising: a support structure comprising a deformable portion defining at least a top surface of a pumping chamber; and an actuator disposed on the deformable portion of the support structure, in which a recess is defined at a central inner portion of the fluid ejector, the recess extending through a portion of a thickness of the fluid ejector, wherein the recess extends radially outwardly from the central inner portion of the actuator in a first direction along a first radial axis, in a second direction along the first radial axis opposite the first direction along the first radial axis, in a first direction along a second radial axis, and in a second direction along the second radial axis opposite the first direction along the second radial axis, wherein the fluid ejector comprises a lead zirconium titanate (PZT) layer and a silicon layer, the recess extends through the PZT layer of the fluid ejector, and the recess extends through at least part of the silicon layer of the fluid ejector. 2. The printhead of claim 1 , wherein the recess extends through an entirety of the actuator. 3. The printhead of claim 1 , wherein: the fluid ejector defines a first region in which the recess is positioned and a second region surrounding the first region, and wherein a maximum thickness of the fluid ejector in the first region is less than a maximum thickness of the fluid ejector in the second region. 4. The printhead of claim 1 , wherein an entirety of the recess is positioned within a perimeter of the fluid ejector. 5. The printhead of claim 1 , further comprising a radially extending recess connected to the recess. 6. The printhead of claim 1 , further comprising a plurality of radially extending recesses connected to the recess. 7. The printhead of claim 1 , wherein the actuator contiguously extends across the support structure. 8. The printhead of claim 1 , wherein the actuator is configured such that application of a voltage to the actuator causes the actuator to deform along the recess, thereby causing deformation of the deformable portion to eject a drop of fluid from the pumping chamber. 9. An apparatus comprising: a reservoir; the printhead of claim 1 ; and a flow path extending from the reservoir to the pumping chamber of the printhead. 10. A printhead comprising: an actuator comprising an active portion and an inactive portion, the actuator defining at least a top surface of a pumping chamber, the actuator being deformable to eject a drop of fluid from the pumping chamber; and a recess positioned on and surrounding a center of the actuator, the recess extending from an exterior surface of the actuator through at least a portion of the actuator, wherein the actuator comprises a lead zirconium titanate (PZT) layer and a silicon layer, the recess extends through the PZT layer of the actuator, and the recess extends through at least part of the silicon layer of the actuator. 11. The printhead of claim 10 , wherein: the actuator comprises a deformable portion, the deformable portion defining an inner region in which the recess is positioned and an outer region surrounding the inner region, and wherein a maximum thickness of the deformable portion in the inner region is less than a maximum thickness of the deformable portion in the outer region. 12. The printhead of claim 10 , wherein an entirety of the recess is positioned within a perimeter of the actuator. 13. The printhead of claim 10 , further comprising a radially extending recess connected to the recess. 14. The printhead of claim 10 , further comprising a plurality of radially extending recesses connected to the recess. 15. The printhead of claim 10 , wherein the actuator contiguously extends across the pumping chamber. 16. An apparatus comprising: a reservoir; the printhead of claim 10 ; and a flow path extending from the reservoir to the pumping chamber of the printhead.