Sympathetically detonated self-centering explosive device

What is claimed is: 1. An explosive device comprising: a housing having an outer surface and defining an inner space; a plurality of primary liners arranged on the outer surface in a spaced pattern and having primary energetic material inwardly positioned in the housing relative to the primary liners; an initiation mechanism in the inner space for initiating the primary energetic material to drive the primary liners; and a plurality of additional liners positioned in the spaced pattern between the primary liners and having additional energetic material positioned in proximity to the primary energetic material such that the additional energetic material is sympathetically initiated by initiation of the primary energetic material. 2. The explosive device of claim 1 wherein the housing is a cylindrical housing and the outer surface is an outwardly facing cylindrical surface of the cylindrical housing. 3. The explosive device of claim 1 wherein each additional liner is positioned between at least 2 primary liners, the at least 2 primary liners being positioned around the each additional liner. 4. The explosive device of claim 1 wherein each additional liner is positioned between 4 symmetrically positioned primary liners. 5. The explosive device of claim 1 wherein the additional energetic material of the additional liners extends inwardly in a stem positioned between the primary energetic material such that initiation of the primary energetic material forms a pressure wave that initiates the additional energetic material. 6. The explosive device of claim 5 wherein the stem has a diameter that is between 150% and 200% of the critical diameter of the stem. 7. The explosive device of claim 5 wherein the stem has a ratio of length to critical diameter of the stem of at least 3:1. 8. The explosive device of claim 1 wherein each primary liner of the plurality of primary liners has an outwardly convex shape, and wherein the primary energetic material surrounds an inner surface of the primary liner. 9. The explosive device of claim 8 wherein each additional liner of the plurality of additional liners has an outwardly convex shape, and wherein the additional energetic material surrounds an inner surface of the additional liner. 10. The explosive device of claim 1 wherein the plurality of primary liners and the plurality of additional liners comprise metallic liners, ceramic liners and combinations thereof. 11. The explosive device of claim 1 wherein the liners comprise at least one material selected from the group consisting of copper, tantalum, aluminum, steel, ceramic, molybdenum, glass, and mixtures, combinations, composites or alloys thereof. 12. The explosive device of claim 1 wherein the energetic material comprises a polymer-bonded explosive. 13. The explosive device of claim 1 wherein the housing has a plurality of openings, and wherein the primary liners and the additional liners are mounted in the openings. 14. The explosive device of claim 1 wherein the housing comprises a material selected from the group consisting of aluminum, steel, titanium and combinations or alloys thereof. 15. The explosive device of claim 1 wherein the primary liners cover between 50% and 80% of the outer surface, and wherein the additional liners cover between 20% and 50% of the outer surface. 16. The explosive device of claim 1 wherein the additional energetic material is positioned to be initiated only by initiation of the primary energetic material. 17. The explosive device of claim 1 wherein the additional energetic material is positioned to be initiated only by pressure waves caused by initiation of the primary energetic material. 18. The explosive device of claim 1 wherein the primary energetic material and the additional energetic material are configured within the housing such that initiation of the primary energetic material generates particles traveling at between 1 and 10 km/s. 19. A method for perforating a side wall of a subterranean well comprising the steps of: positioning an explosive device through a subterranean well defined be a well casing to a desired position in the well casing, wherein the explosive device comprises a housing having an outer surface and defining an inner space; a plurality of primary liners arranged on the outer surface in a spaced pattern and having primary energetic material inwardly positioned in the housing relative to the primary liners; an initiation mechanism in the inner space for initiating the primary energetic material to drive the primary liners; and a plurality of additional liners positioned in the spaced pattern between the primary liners and having additional energetic material positioned in proximity to the primary energetic material such that the additional energetic material is sympathetically initiated by initiation of the primary energetic material; initiating the primary energetic material wherein the additional energetic material is sympathetically initiated by the primary energetic material, and the primary liners and additional liners perforate the side wall.