Shock wave applicator with movable electrode

What is claimed is: 1. A shock wave applicator comprising: a reflector including at least a portion of an ellipsoidal shape with a long axis and small axis, wherein the long axis includes a first focal point and a second focal point; a terminating edge of the reflector defining a membrane-covered aperture on a plane intersecting the long axis at a non-perpendicular angle at the second focal point; and a movable shockwave-generating electrode having a position adjustment mechanism and disposed at the first focal point. 2. The shock wave applicator of claim 1 , wherein the position adjustment mechanism is coupled to the electrode to move said electrode along the long axis. 3. The shock wave applicator of claim 2 , wherein the reflector further includes a portion of a paraboloid shape. 4. The shock wave applicator of claim 2 , wherein the reflector includes a portion of a spherical shape. 5. The shock wave applicator of claim 1 , wherein the reflector further includes a portion of a paraboloid shape. 6. The shock wave applicator of claim 1 , wherein the reflector includes a portion of a spherical shape. 7. A shock wave applicator comprising: a reflector including a terminating edge of the reflector defining a membrane-covered aperture, wherein the reflector includes at least a portion of an ellipsoidal shape; a movable shockwave-generating electrode having a position adjustment mechanism and disposed at a first focal point in an interior of the applicator between the reflector and the membrane-covered aperture; and a second focal point providing an axis of the ellipsoidal shape with the first focal point, wherein the axis intersects a plane defined by the membrane-covered aperture at a non-perpendicular angle. 8. The shock wave applicator of claim 7 wherein the position adjustment mechanism is coupled to the electrode to move said electrode along the axis. 9. The shock wave applicator of claim 8 , wherein the reflector further includes a portion of a paraboloid shape. 10. The shock wave applicator of claim 8 , wherein the reflector includes a portion of a spherical shape. 11. The shock wave applicator of claim 7 , wherein the reflector further includes a portion of a paraboloid shape. 12. The shock wave applicator of claim 7 , wherein the reflector includes a portion of a spherical shape. 13. A method of applying shock waves from the applicator of claim 7 comprising discharging a shock wave from the electrode at the first focal point and moving the electrode and discharging a shock wave at a different point along the axis. 14. The method of claim 13 , wherein the axis is a long axis of the portion of an ellipsoidal shape and further comprising reflecting shock waves with the reflector. 15. The method of claim 14 , further comprising reflecting shock waves discharged from each of the first focal point and the different point along the long axis and producing focal volumes on the long axis. 16. The method of claim 13 , further comprising automatically moving the electrode along the axis. 17. The method of claim 13 , wherein the reflector further includes a portion of a paraboloid shape and further comprising reflecting shock waves with the reflector. 18. The method of claim 13 , wherein the reflector includes a portion of a spherical shape and further comprising reflecting shock waves with the reflector.