Optics assembly for high power laser tools

What is claimed: 1. A high power laser optics assembly comprising: a. a first section and a second section; b. the first section having a first opening for receiving a high power laser source for providing a high power laser beam; c. the second section having a second opening for transmitting the high power laser beam; d. the first opening and the second opening being in optical communication and defining an optical channel; and, e. a means for sealingly placing the first opening and the second opening in rotational association. 2. The high power optical assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than about 0.0066 radians. 3. The high power optics assembly of claim 2 , wherein the optical alignment is maintained over temperature ranges from about −100° C. to about 200° C. 4. The high power optics assembly of claim 3 , wherein the optical alignment is maintained over forces of about 100 g's. 5. The high power optics assembly of claim 4 , wherein the optical alignment is maintained over forces of about 200 g's. 6. The high power optics assembly of claim 2 , wherein the optical alignment is maintained over forces of about 100 g's. 7. The high power optics assembly of claim 2 , wherein the optical alignment is maintained in the presence of transmitting at least about a 5 kW laser beam between the first and second openings. 8. The high power optics assembly of claim 2 , wherein the optical alignment is maintained in the presence of transmitting at least about a 10 kW laser beam between the first and second openings. 9. The high power optics assembly of claim 2 , wherein the optical alignment is maintained in the presence of transmitting at least about a 50 kW laser beam between the first and second openings. 10. The high power optics assembly of claim 9 , comprising a means for managing back reflections. 11. The high power optics assembly of claim 2 , wherein the optical channel extends through the rotational sealing means, and the rotational sealing means comprises a bearing assembly and a rotary seal. 12. The high power optics assembly of claim 2 , comprising a means for passive cooling. 13. The high power optics assembly of claim 2 , comprising a means for managing back reflections. 14. The high power optics assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than about 0.004 radians. 15. The high power optics assembly of claim 14 , wherein the optical alignment is maintained in the presence of transmitting at least about a 5 kW laser beam between the first and second openings. 16. The high power optics assembly of claim 15 , wherein the optical channel extends through rotational sealing means, and the rotational sealing means comprises a bearing assembly and a rotary seal. 17. The high power optics assembly of claim 16 , comprising a means for passive cooling. 18. The high power optics assembly of claim 16 , comprising a means for managing back reflections. 19. The high power optics assembly of claim 14 , wherein the optical alignment is maintained in the presence of transmitting at least about a 10 kW laser beam between the first and second openings. 20. The high power optics assembly of claim 14 , wherein the optical alignment is maintained in the presence of transmitting at least about a 50 kW laser beam between the first and second openings. 21. The high power optics assembly of claim 14 , wherein the optical channel extends through the rotational sealing means, and the rotational sealing means comprises a bearing assembly and a rotary seal. 22. The high power optics assembly of claim 21 , comprising a means for passive cooling. 23. The high power optics assembly of claim 21 , comprising a means for managing back reflections. 24. The high power optics assembly of claim 14 , comprising a means for managing back reflections. 25. The high power optics assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than 0.018 radians. 26. The high power optics assembly of claim 25 , wherein the optical alignment is maintained in the presence of transmitting at least about a 5 kW laser beam between the first and second openings. 27. The high power optics assembly of claim 25 , wherein the optical channel extends through rotational sealing means, and the rotational sealing means comprises a bearing assembly and a rotary seal. 28. The high power optics assembly of claim 27 , wherein the rotational sealing means comprises two bearing assemblies. 29. The high power optics assembly of claim 25 , comprising a meat for managing back reflections. 30. The high power optics assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than 0.001 radians. 31. The high power optics assembly of claim 30 , wherein the optical alignment is maintained in the presence of transmitting at least about a 5 kW laser beam between the first and second openings. 32. The high power optics assembly of claim 30 , wherein the optical alignment is maintained in the presence of transmitting at least about a 10 kW laser beam between the first and second openings. 33. The high power optics assembly of claim 30 , wherein the optical alignment is maintained in the presence of transmitting at least about a 50 kW laser beam between the first and second openings. 34. The high power optics assembly of claim 30 , wherein the optical channel extends through rotational sealing means, and the rotational sealing means comprises a bearing assembly and a rotary seal. 35. The high power optics assembly of claim 30 , comprising a means for managing back reflections. 36. The high power optics assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than 0.0005 radians. 37. The high power optics assembly of claim 1 , wherein the optical channel extends through the rotational sealing means, and the rotational sealing means comprises a bearing assembly and a rotary seal. 38. The high power optics assembly of claim 1 , wherein the rotational sealing means comprises two bearing assemblies. 39. The high power optics assembly of claim 1 , wherein the rotational sealing means comprises three bearing assemblies. 40. The high power optics assembly of claim 1 , comprising a means for passive cooling. 41. The high power optics assembly of claim 40 , comprising a means for managing back reflections. 42. The high power optics assembly of claim 1 , comprising a means for managing back reflections. 43. The high power optics assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than about 0.004 radians over basic operating parameters. 44. The high power optical assembly of claim 1 , wherein the assembly is capable of maintaining optical alignment, as measured by tip/tilt to less than about 0.001 radians over basic operating