High power laser offshore decommissioning tool, system and methods of use

What is claimed: 1. A high power laser decommissioning tool, the tool comprising: a. a body, comprising a first section and a second section, wherein the first section is rotationally associated with the second section; b. the first section comprising: i. an anchor assembly comprising: a locking device for fixing the body in a location within a tubular; an engagement surface for engaging against an inner surface of the tubular; and a device for extending the engagement surface into engagement against the inner surface of the tubular; ii. a first motor, operationally connected to the second section, whereby the first motor rotates the second section; iii. a high power laser fiber; and, iv. a connector assembly for attaching a proximal end of the first section to an umbilical; c. the second section comprising: i. a second motor; ii. a laser pad; iii. a distal end of the high power laser fiber; iv. the distal end of the high power laser fiber in mechanical and optical association with the laser pad; and, v. the second motor operationally associated with the laser pad, whereby the second motor causes an axial movement of the pad. 2. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a wrapped configuration, whereby as the second section is rotated in a first direction the fiber will unwind, and when the second section is rotated in a second direction the fiber will wind. 3. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a first direction the fiber will unwind, and when the second section is rotated in a second direction the fiber will wind. 4. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a direction the fiber will unwind. 5. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a wrapped configuration, whereby as the second section is rotated in a first direction the fiber will unwind, and when the second section is rotated in a second direction the fiber will wind; and the pad comprises optics defining a laser beam path having a bend from about 85 degrees to about 95 degrees. 6. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a direction the fiber will unwind; and the pad comprises optics defining a laser beam path having a bend from about 85 degrees to about 95 degrees. 7. The decommissioning tool of claim 1 , wherein the anchor assembly comprises a plurality of hydraulic cylinders, operably associated with legs, whereby the hydraulic cylinders extend and retract the legs into engagement with the tubular. 8. The decommissioning tool of claim 1 , the first motor is proximal to the second motor. 9. The decommissioning tool of claim 1 , wherein the second motor is operably associated with the laser pad, through a ball screw nut assembly. 10. The decommissioning tool of claim 1 , wherein the second motor is operably associated with the laser pad, through a ball screw nut assembly operably associated with a four bar linkage. 11. The decommissioning tool of claim 1 , comprising a plurality of high power optical fibers. 12. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a direction the fiber will unwind; and the pad comprises optics defining a laser beam path having a bend from about 85 degrees to about 95 degrees; wherein the anchor assembly comprises a plurality of hydraulic cylinders, operably associated with legs, whereby the hydraulic cylinders extend and retract the legs into engagement with the tubular; and the first motor is proximal to the second motor. 13. The decommissioning tool of claim 1 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a direction the fiber will unwind; and wherein the laser pad comprises a heat sink. 14. A high power laser decommissioning tool, the tool comprising: a. a body, comprising a first body section and a second body section, wherein the first body section is rotationally associated with the second body section; b. the first body section comprising a first housing having an outer surface and an inner surface; c. the second body section comprising a second housing having an outer surface; a first portion of the second housing outer surface extending into the first housing, whereby the first housing inner surface overlaps the first portion; a rotary seal located between the second housing outer surface and the first housing inner surface; d. a third housing having an inner surface and an outer surface; e. the third housing extending at least partially over the first body section and the second body section; an annular passage defined by the inner surface of the third housing and at least a portion of the outer surfaces of the first and second housings; and, f. a high power laser fiber contained in the annular passage. 15. The high power laser decommission tool of claim 14 , comprising a connector assembly for attaching a proximal end of the first section to an umbilical. 16. The high power laser decommission tool of claim 14 , comprising a connector assembly for attaching a proximal end of the first section to an umbilical, wherein the assembly comprises an eye hole. 17. The decommissioning tool of claim 14 , wherein the high power laser fiber is in a wrapped configuration, whereby as the second section is rotated in a first direction the fiber will unwind, and when the second section is rotated in a second direction the fiber will wind. 18. The decommissioning tool of claim 14 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a first direction the fiber will unwind, and when the second section is rotated in a second direction the fiber will wind. 19. The decommissioning tool of claim 14 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a direction the fiber will unwind. 20. The decommissioning tool of claim 14 , wherein the high power laser fiber is in a wrapped configuration, whereby as the second section is rotated in a first direction the fiber will unwind, and when the second section is rotated in a second direction the fiber will wind; wherein the second section comprises a laser pad comprises optics defining a laser beam path having a bend from about 85 degrees to about 95 degrees. 21. The decommissioning tool of claim 20 , comprising a motor operably associated with the laser pad, through a ball screw nut assembly. 22. The decommissioning tool of claim 21 , wherein the motor is operably associated with the laser pad, through a ball screw nut assembly operably associated with a four bar linkage. 23. The decommissioning tool of claim 14 , wherein the high power laser fiber is in a helical configuration, whereby as the second section is rotated in a direction the fiber will unwind; and the wherein the second section comprises a laser pad comprises optics defining a laser beam path having a bend from about 85 degrees to about 95 degrees. 24. The decommissioning tool of claim 14 , comprising an anchor assembly. 25. The decommissioning of