Filter for fuel injection systems

What is claimed is: 1. A filter for a fuel injection system, the filter comprising: a body defining a longitudinal axis, a first end face, a second end opposite the first end face, an outer surface extending between the first end face and the second end, an inner surface defining an inner chamber closed at the first end face and open at the second end, at least one perforated portion formed in the outer surface extending from the outer surface to the inner surface, and at least one slot extending axially along the outer surface, the at least one slot open and in fluid communication with the first end face and defining an edge along the outer surface, the edge providing fluid communication between the at least one slot and the at least one perforated portion in a radial direction, wherein the edge and an inlet channel of the fuel injection system are adapted to define a first filtration zone, the at least one perforated portion defines a second filtration zone, and each said at least one slot is offset in the radial direction from each said at least one perforated portion. 2. The filter of claim 1 , wherein the at least one slot is adapted to receive a fuel of the fuel injection system into the filter, and the open, second end of the filter facilitates a release of the fuel from the filter. 3. The filter of claim 1 , wherein the body includes a tubular structure, a filter length along the longitudinal axis, the at least one slot extending from the first end face along the outer surface and terminating before the second end for a slot length less than the filter length. 4. The filter of claim 1 , wherein the outer surface proximal the second end defines an uninterrupted surface. 5. The filter of claim 1 , wherein a cross-sectional diameter of the outer surface proximal the first end face and a cross-sectional diameter of the outer surface proximal the second end are each greater than a cross-sectional diameter of the outer surface at the first filtration zone. 6. The filter of claim 1 , wherein the outer surface defines a recess at the second filtration zone, the at least one perforated portion being formed in the recess. 7. The filter of claim 1 , wherein the first filtration zone is adapted to filter particulate having a size of greater than 75 micrometer (μm)×1 millimeter (mm)×1 mm and the second filtration zone is adapted to filter particulate having a size greater than 1 mm×65 μm×65 μm. 8. The filter of claim 1 , wherein the outer surface includes four slots and four perforated portions. 9. The filter of claim 1 , wherein the inner chamber is defined by a plurality of planar surfaces that are contiguously arrayed around the longitudinal axis, imparting a polygonal cross-section to the inner chamber from the second end, wherein the at least one perforated portion is revealed on one or more of the plurality of planar surfaces. 10. A fuel injection system for an engine, the fuel injection system comprising: an inlet channel to receive fuel; and a filter positioned within the inlet channel, the filter having a body, the body defining a longitudinal axis, a first end face, a second end opposite the first end face, an outer surface extending between the first end face and the second end, an inner surface defining an inner chamber closed at the first end face and open at the second end, at least one perforated portion formed in the outer surface extending from the outer surface to the inner surface, and at least one slot extending axially along the outer surface, the at least one slot open and in fluid communication with the first end face and defining an edge along the outer surface, the edge providing fluid communication between the at least one slot and the at least one perforated portion in a radial direction, wherein the edge and the inlet channel define a first filtration zone, the at least one perforated portion defines a second filtration zone, and each said at least one slot is offset in the radial direction from each said at least one perforated portion. 11. The fuel injection system of claim 10 , wherein the open, second end of the filter facilitates a release of the fuel from the filter. 12. The fuel injection system of claim 10 , wherein the body includes a tubular structure, a filter length along the longitudinal axis, the at least one slot extending from the first end face along the outer surface and terminating before the second end for a slot length less than the filter length. 13. The fuel injection system of claim 10 , wherein the outer surface proximal the second end defines an uninterrupted surface. 14. The fuel injection system of claim 10 , wherein a cross-sectional diameter of the outer surface proximal the first end face and a cross-sectional diameter of the outer surface proximal the second end are each greater than a cross-sectional diameter of the outer surface at the first filtration zone. 15. The fuel injection system of claim 10 , wherein the outer surface defines a recess at the second filtration zone, the at least one perforated portion being formed in the recess. 16. The fuel injection system of claim 10 , wherein the first filtration zone is adapted to filter particulate having a size of greater than 75 micrometer (μm)×1 millimeter (mm)×1 mm and the second filtration zone is adapted to filter particulate having a size greater than 1 mm×65 μm×65 μm. 17. The fuel injection system of claim 10 , wherein the edge is between the at least one slot and the at least one perforated portion in the radial direction. 18. The fuel injection system of claim 10 , wherein the inner chamber is defined by a plurality of planar surfaces that are contiguously arrayed around the longitudinal axis, imparting a polygonal cross-section to the inner chamber from the second end, wherein the at least one perforated portion is revealed on one or more of the plurality of planar surfaces. 19. A fuel injector for a fuel injection system, comprising: an inlet arm with an inlet channel configured to receive fuel; and a filter positioned within the inlet channel, the filter having a body, the body defining a longitudinal axis, a first end face, a second end opposite the first end face, an outer surface extending between the first end face and the second end, an inner surface defining an inner chamber closed at the first end face and open at the second end, at least one perforated portion formed in the outer surface extending from the outer surface to the inner surface, and at least one slot extending axially along the outer surface, the at least one slot open and in fluid communication with the first end face and defining an edge along the outer surface, the edge providing fluid communication between the at least one slot and the at least one perforated portion in a radial direction, wherein the edge and the inlet channel define a first filtration zone, the at least one perforated portion defines a second filtration zone, the open, second end of the filter facilitates a release of the fuel from the filter, and each said at least one slot is offset in the radial direction from each said at least one perforated portion. 20. The fuel injector of claim 19 , wherein the inner chamber is defined by a plurality of planar surfaces that are contiguously arrayed around the longitudinal axis, imparting a polygonal cross-section to the inner chamber from the second end, wherein the at least one perforated portion is revealed on one or more of the plurality of planar surfaces.