Fuel pump

We claim: 1. A valve for a fuel pump, comprising: a valve body that has a valve plunger barrel formed therein and that is configured to form part of a pump head of the fuel pump; a valve plunger arranged to perform reciprocal motion within the valve plunger barrel; and a spacer configured to couple to the valve plunger so as to perform reciprocal motion together with the valve plunger and configured to interface with the pump head, wherein the spacer has a spacer body with a first spacer surface, a second spacer surface that is opposite the first spacer surface, and a central aperture that extends from the first spacer surface to the second spacer surface and that is configured to receive the valve plunger therethrough, and wherein at least one of the first spacer surface and the second spacer surface includes at least one groove that is recessed into the spacer body so as to reduce or inhibit cavitation of the spacer where the pump head interfaces with the spacer, and wherein a fluid flow passage is formed between the valve plunger barrel and the valve plunger and is in fluid communication with the at least one groove. 2. The valve of claim 1 , wherein the at least one groove comprises a single annular groove. 3. The valve of claim 1 , wherein the at least one of the first spacer surface and the second spacer surface includes one or more grooves that are recessed into the spacer body, wherein the one or more grooves includes a plurality of grooves. 4. The valve of claim 3 , wherein the plurality of grooves is circumferentially arranged. 5. The valve of claim 3 , wherein the plurality of grooves is radially arranged. 6. The valve of claim 1 , wherein the spacer body is a closed ring shape such that the spacer surrounds a portion of plunger that is coupled to the spacer. 7. The valve of claim 1 , wherein both the first and second spacer surfaces include the at least one groove. 8. The valve of claim 7 , wherein both the first and second spacer surfaces comprise a plurality of grooves. 9. The valve of claim 1 , wherein the valve plunger is arranged within the valve plunger barrel and includes an elongate valve plunger body having a central axis that extends longitudinally through the elongate valve plunger body, wherein the elongate valve plunger body includes at least one flattened portion that extends in a direction along the central axis so as to form the fluid flow passage between the valve plunger barrel and the at least one flattened portion of the elongate valve plunger body of the valve plunger. 10. The valve of claim 9 , wherein the elongate valve plunger body includes both a main portion with a first diameter and at least one shoulder portion with a second diameter that is larger than the first diameter, and wherein each shoulder portion in the at least one shoulder portion includes a respective flattened portion of the at least one flattened portion. 11. The valve of claim 1 , further including a drive assembly configured to cause the valve plunger to perform reciprocal motion, the drive assembly being an electromagnetic drive assembly comprising a stator core and an armature coupled to the valve plunger. 12. The valve of claim 11 , wherein the valve plunger includes an elongate valve plunger body with a main portion and at least one shoulder portion, wherein the spacer is positioned between the armature and the at least one shoulder portion of the valve plunger, and wherein the main portion forms a minor diameter of the elongate valve plunger body and the at least one shoulder portion forms a major diameter of the elongate valve plunger body. 13. The valve of claim 12 , wherein a first shoulder portion of the at least one shoulder portion includes at least one flattened portion that extends in a direction along a central axis of the elongate valve plunger body so as to form a fluid flow passage between the valve plunger barrel, in which the valve plunger is arranged, and the at least one flattened portion, and wherein the fluid flow passage is in fluid communication with the at least one groove. 14. A valve plunger assembly comprising: a valve plunger configured to perform, via a drive assembly, reciprocal motion within a valve body, wherein the valve plunger is coupled to a portion of the drive assembly, and wherein the valve body is configured with a valve plunger barrel to form part of a pump head of a fuel pump; and a spacer coupled to the valve plunger so as to perform reciprocal motion together with the valve plunger and configured to interface with the pump head, wherein the spacer has a spacer body with a first spacer surface, a second spacer surface that is opposite the first spacer surface, and a central aperture that extends from the first spacer surface to the second spacer surface and that is configured to receive the valve plunger therethrough, and wherein at least one of the first spacer surface and the second spacer surface includes at least one groove that is recessed into the spacer body so as to reduce or inhibit cavitation of the spacer where the pump head interfaces with the spacer, and wherein a fluid flow passage is formed between the valve plunger barrel and the valve plunger and is in fluid communication with the at least one groove. 15. The valve plunger assembly of claim 14 , wherein the at least one groove comprises a single annular groove. 16. The valve plunger assembly of claim 14 , wherein the at least one of the first spacer surface and the second spacer surface includes one or more grooves that are recessed into the spacer body, wherein the one or more grooves includes a plurality of grooves that is circumferentially arranged or radially arranged. 17. The valve plunger assembly of claim 14 , wherein the valve plunger includes an elongate valve plunger body with a main portion and at least one shoulder portion, wherein the spacer is positioned between the portion of the drive assembly and the at least one shoulder portion of the valve plunger, wherein the main portion forms a minor diameter of the elongate valve plunger body and the at least one shoulder portion forms a major diameter of the elongate valve plunger body, and wherein each shoulder portion in the at least one shoulder portion includes a respective flattened portion of at least one flattened portion that extends in a direction along a central axis of the elongate valve plunger body so as to form the fluid flow passage between the valve plunger barrel of the valve body and at least one flattened portion of the elongate valve plunger body of the valve plunger. 18. A method of reducing cavitation in a valve for a fuel pump, the method comprising: reciprocating a valve plunger within a valve body of the valve; directing, as the valve plunger reciprocates within the valve, a fluid to flow past the valve plunger and into at least one groove in a spacer coupled to the valve plunger and configured to interface with a pump head of the fuel pump, wherein the fluid flows via a fluid passage formed between the valve body and the valve plunger that is in fluid communication with the at least one groove; and allowing vapor-filled cavities caused by rapid changes of pressure in the fluid from the valve plunger reciprocating within the valve body to collapse within the at least one groove so as to inhibit cavitation of the spacer. 19. The method of claim 18 , wherein the at least one groove comprises a single annular groove. 20. The method of claim 18 , wherein the fluid flows past the valve plunger and into the at least one groove via th