Methods and Systems for the Application and Use of High Power Laser Energy

What is claimed: 1 . A high power laser drilling system for advancing a borehole comprising: a. a source of high power laser energy, the laser source capable of providing a laser beam having at least 5 kW of power; b. a tubing assembly, the tubing assembly having at least 1000 feet of tubing, having a distal end and a proximal; c. the proximal end of the tubing being in optical communication with the laser source, whereby the laser beam can be transported in association with the tubing; d. the tubing comprising a high power laser transmission cable, the transmission cable having a distal end and a proximal end, the proximal end being in optical communication with the laser source, whereby the laser beam is transmitted by the cable from the proximal end to the distal end of the cable for delivery of the laser beam energy to the borehole; and, e. the power of the laser energy at the distal end of the cable when the cable is within a borehole being at least about 2 kW. 2 . A high power laser drilling system for advancing a borehole comprising: a. a source of high power laser energy, the laser source capable of providing a laser beam having at least 5 kW of power; b. a tubing, the tubing assembly having at least 1000 feet of tubing, having a distal end and a proximal; c. a means for advancing the tubing into the borehole; d. a bottom hole assembly; e. a blowout preventer; f. a diverter; g. the proximal end of the tubing being in optical communication with the laser source, whereby the laser beam can be transported in association with the tubing; h. the tubing comprising a high power laser transmission cable, the transmission cable having a distal end and a proximal end, the proximal end being in optical communication with the laser source, whereby the laser beam is transmitted by the cable from the proximal end to the distal end of the cable for delivery of the laser beam energy to the borehole; and, i. the power of the laser energy at the distal end of the cable when the cable is within a borehole being at least about 2 kW. 3 . The method of claim 1 , comprising: protecting optics and components of a high power laser system while performing laser operations at a remote location from damage from carbon gettering migration, the method comprising: a. delivering a high power laser beam to a remote location by means of a high power laser system comprising a high power laser having at least about 20 kW of power, an optical transition device, an of optical connector, an optical cable and a high power laser tool comprising an optical package; b. propagating a laser beam having at least about 20 kW along a beam path, wherein the beam path is optically associated with the optical transition device, the optical connector, the optical cable and the high power laser tool and the optical package, whereby the laser beam is delivered to the remote location; and, c. providing a means for preventing carbon gettering on a component of the high power laser system; d. whereby, carbon deposits are prevented from covering the component of the high power laser system.