Electric motor for laser-mechanical drilling

1 - 88 . (canceled) 89 . A method of performing a laser operation, the method comprising: a. locating an electric laser tool assembly at a work area for perform a laser operation in the work area; b. the electric laser tool assembly having: an electric motor; a first section attached with a second section; the second section rotationally attached with a third section; a collimator; a first fluid cavity; the second section comprising an inner optical cavity and a second fluid cavity; the third section comprising an optics assembly, and a third fluid cavity; a first rotary seal sealing the first and second sections; a second rotary seal sealing the second and the third sections; c. transmitting a high power laser beam along a laser beam path extending through the inner optical cavity of the second section, wherein the laser beam is collimated; d. transmitting a high power laser beam along a laser beam path within the electric laser tool assembly, the laser beam path extending through the collimator, the first section, the inner optical cavity of the second section and the optics assembly of the third section; whereby a collimated laser beam is transmitted through the optical cavity; e. transmitting a fluid through the first fluid cavity, the second fluid cavity and the third fluid cavity; f. delivering the laser beam and the fluid from the electric laser tool assembly to the work area; g. rotating at least one of the sections; and, h. performing a laser operation in the work area. 90 . The method of claim 89 , wherein the laser beam has a wavelength of at least 445 nm. 91 . The method of claim 89 , wherein the laser barn has a wavelength of less than 1060 nm. 92 . The method of claim 89 , wherein the laser beam is provided by a semiconductor lasers. 93 . The method of claim 89 , wherein the laser operation is drilling a borehole. 94 . A method of for performing a laser operation on a work surface, the method comprising: a. locating an electric laser tool assembly at a work area adjacent a work surface for perform a laser operation in the work area; b. the electric laser tool assembly having: an electric motor; a first section attached with a second section; the second section rotationally attached with a third section; a collimator; a first fluid cavity; the second section comprising an inner optical cavity and a second fluid cavity; the third section comprising an optics assembly, and a third fluid cavity; a first rotary seal sealing the first and second sections; a second rotary seal sealing the second and the third sections; c. transmitting a high power laser beam along a laser beam path extending through the inner optical cavity of the second section, wherein the laser beam is collimated; d. transmitting a high power laser beam along a laser beam path within the electric laser tool assembly, the laser beam path extending through the collimator, the first section, the inner optical cavity of the second section and the optics assembly of the third section; whereby a collimated laser beam is transmitted through the optical cavity; e. transmitting a fluid through the first fluid cavity, the second fluid cavity and the third fluid cavity; f. delivering the laser beam and the fluid from the electric laser tool assembly to the work area; g. rotating at least one of the sections; and, h. performing a laser operation on the work surface. 95 . The method of claim 94 , wherein the laser barn has a wavelength of less than 1060 nm. 96 . The method of claim 94 , wherein the laser beam is provided by a semiconductor lasers. 97 . The method of claim 94 , wherein the work surface is a tubular located in a borehole. 98 . A method of performing a laser operation, the method comprising: a. providing an electric laser tool assembly system to a work area at a borehole site, the system comprising an electric laser tool assembly assembly and a high power laser source, the electric laser tool assembly comprising a pair of optical wedges b. locating the electric laser tool assembly in the work area c. configuring the optical wedges to define an angled laser beam path; d. transmitting a high power laser beam through the electrical laser tool assembly, whereby the high power laser beam exits a first optical wedge of the configured optical wedges, transmits along the angled laser beam path in a collimated space, enters a second optical wedge of the configured optical wedges, and exits the second optical wedge; and, e. delivering the laser beam to the work area for performing a laser operation in the work area.