Emitter devices for use in X-ray tubes

The invention claimed is: 1. An emitter device comprising: an emission surface, said emission surface comprising: a plurality of ligaments configured to emit electrons in response to an applied electric field resulting from an applied electrical voltage, wherein each ligament of the plurality of ligaments comprises a peripheral portion and a non-peripheral portion; a plurality of slots configured to provide physical separation between two or more adjacently disposed ligaments of the plurality of ligaments, wherein one or more slots of the plurality of slots define an electrical path; and a low work function layer disposed on at least a portion of a ligament of the plurality of ligaments, wherein the low work function layer is disposed on the non-peripheral portion of one or more ligaments of the plurality of ligaments. 2. The emitter device of claim 1 , wherein a ratio of the peripheral portion and the non-peripheral portion varies from one ligament to another ligament. 3. The emitter device of claim 1 , wherein a ratio of the peripheral portion and the non-peripheral portion varies from one ligament to another ligament. 4. The emitter device of claim 1 , wherein a ratio of the peripheral portion and the non-peripheral portion is based on a geometry of a corresponding ligament of the plurality of ligaments, a location of the corresponding ligament, dimensions of the corresponding ligament, a relative position of the corresponding ligament on the emission surface, dimensions of slots of the plurality of slots disposed adjacent to the corresponding ligament, electrostatic field variation in the corresponding ligament, or combinations thereof. 5. The emitter device of claim 1 , wherein the low work function layer is disposed on the peripheral portion and the non-peripheral portion of one or more ligaments of the plurality of ligaments. 6. The emitter device of claim 1 , wherein the low work function layer comprises hafnium carbide, tantalum carbide, hafnium diboride, zirconium carbide, hafnium nitride, tantalum nitride, zirconium nitride, tungsten diboride, or combinations thereof. 7. An emitter device comprising: an emission surface, said emission surface comprising: a plurality of ligaments configured to emit electrons in response to an applied electric field resulting from an applied electrical voltage; a plurality of slots configured to provide physical separation between two or more adjacently disposed ligaments of the plurality of ligaments, wherein one or more slots of the plurality of slots define an electrical path; and a low work function layer disposed on at least a portion of a ligament of the plurality of ligaments, wherein at least one ligament of the plurality of ligaments comprises a low work function layer that is different from a low work function layer disposed on other ligaments of the plurality of ligaments. 8. An emitter device comprising: an emission surface, said emission surface comprising: a plurality of ligaments configured to emit electrons in response to an applied electric field resulting from an applied electrical voltage; a plurality of slots configured to provide physical separation between two or more adjacently disposed ligaments of the plurality of ligaments, wherein one or more slots of the plurality of slots define an electrical path; and a low work function layer disposed on at least a portion of a ligament of the plurality of ligaments, wherein each ligament of the plurality of ligaments comprises a side surface, and wherein the side surface is configured to not emit electrons in response to the applied electric field. 9. An emitter device comprising: an emission surface, said emission surface comprising: a plurality of ligaments configured to emit electrons in response to an applied electric field resulting from an applied electrical voltage; a plurality of slots configured to provide physical separation between two or more adjacently disposed ligaments of the plurality of ligaments, wherein one or more slots of the plurality of slots define an electrical path; and a low work function layer disposed on at least a portion of a ligament of the plurality of ligaments, wherein the emission surface comprises a core section, an intermediate section and an edge section, and wherein one or more ligaments of the plurality of ligaments disposed in the intermediate section of the emission surface comprise the low work function layer. 10. The emitter device of claim 9 , wherein the low work function layer is not disposed on the core section. 11. The emitter device of claim 9 , wherein the core section comprises a hole. 12. An X-ray imaging system, comprising: an X-ray tube configured to produce X-ray beams having a determined size of a focal spot, wherein the X-ray tube employs an emitter device having an emission surface, and wherein the emission surface comprises: a plurality of ligaments configured to emit electrons in response to an applied electric field resulting from an applied electrical voltage, wherein each ligament of the plurality of ligaments comprises a peripheral portion and a non-peripheral portion; a plurality of slots configured to provide physical separation between two or more adjacently disposed ligaments of the plurality of ligaments, wherein one or more slots of the plurality of slots define an electrical path; and a low work function layer disposed on at least a portion of a ligament of the plurality of ligaments, wherein the low work function layer is disposed on the non-peripheral portion of one or more ligaments of the plurality of ligaments. 13. The X-ray imaging system of claim 12 , wherein the emitter device is configured to produce laminar electron beams. 14. The X-ray imaging system of claim 12 , wherein the peripheral portion is in a range from about 5% to about 60% of a total area of a ligament of the plurality of ligaments. 15. A method of making an emitter device, comprising: providing an emitter body having an emission surface, wherein the emission surface comprises: a plurality of ligaments configured to emit electrons in response to an applied electric field resulting from an applied electrical voltage; a plurality of slots configured to provide physical separation between two or more adjacently disposed ligaments of the plurality of ligaments, and wherein one or more slots of the plurality of slots define an electrical path; and selectively disposing a low work function layer on at least a portion of a ligament of the plurality of ligaments, comprising selecting one ore more ligaments of the plurality of ligaments; depositing an initial layer of a low work function material on the selected one or more ligaments; and selectively removing at least a portion of the initial layer from the peripheral portion of the selected one or more ligaments.