Varying beam parameter product of a laser beam

1 - 41 . (canceled) 42 . A laser beam delivery waveguide assembly for outputting a variable output spot size laser beam, the laser beam delivery waveguide assembly comprising: a step-index delivery optical waveguide having first and second ends for guiding a laser beam from the first end to the second end; and first and second graded-index optical elements fused to the first and second ends, respectively, for coupling the laser beam into the first end and out of the second end, respectively, of the step-index delivery optical waveguide. 43 . The laser beam delivery waveguide assembly of claim 42 , further comprising: first and second end caps fused to the first and second graded-index optical elements, respectively, for transmitting the laser beam to the first graded-index optical element and from the second graded-index optical element, respectively. 44 . The laser beam delivery waveguide assembly of claim 42 , wherein the first graded-index optical element is offset laterally, with respect to a core of the step-index delivery optical waveguide, for launching the laser beam to produce a vortex beam at an output. 45 . The laser beam delivery waveguide assembly of claim 42 , wherein at least one of the first or second graded-index optical elements is of quarter-pitch length or an odd multiple thereof, and at least one of the first or second graded-index optical elements has a focal length no greater than 10 mm. 46 . The laser beam delivery waveguide assembly of claim 42 , wherein at least one of the first or second graded-index optical elements is not of quarter-pitch length or an odd multiple thereof, and at least one of the first or second graded-index optical elements has a refractive index profile such that, when used in a length of one-quarter pitch, would yield a focal length of no greater than 10 mm. 47 . The laser beam delivery waveguide assembly of claim 42 , further comprising: a shifter for providing a variable lateral displacement between the laser beam and an optical axis of the first end of the step-index delivery optical waveguide. 48 . The laser beam delivery waveguide assembly of claim 42 , further comprising: a shifter for laterally displacing the input beam from an optical axis by more than a radius of the input beam, thereby creating an annular near-field spot at an output. 49 . The laser beam delivery waveguide assembly of claim 42 , further comprising: a shifter for tilting and laterally displacing the input beam, wherein the tilting is noncollinear with the lateral displacement, thereby producing a vortex beam at an output. 50 . The laser beam delivery waveguide assembly of claim 42 , further comprising: a shifter including a laterally displaceable lens or optical wedge for laterally displacing the laser beam. 51 . The laser beam delivery waveguide assembly of claim 50 , further comprising: a flexure mount for displaceably mounting the laterally displaceable lens or the optical wedge. 52 . The laser beam delivery waveguide assembly of claim 42 , wherein the step-index delivery optical waveguide includes a core that has a non-circular cross-section for facilitating formation of a substantially uniform radial distribution of intensity of the laser beam at the second end, thereby facilitating uniform distribution of ray angles at a first laser beam waist. 53 . The laser beam delivery waveguide assembly of claim 52 , wherein the non-circular cross-section is one of: a square, a rectangular, triangular, hexagonal, octagonal, D-shaped, rippled, cusped, or a star shape. 54 . The laser beam delivery waveguide assembly of claim 42 , wherein the step-index delivery optical waveguide includes a cladding that surrounds a core, the cladding having a diameter of at least 250 micrometers. 55 . The laser beam delivery waveguide assembly of claim 54 , wherein the cladding comprises a SiO2 cladding. 56 . The laser beam delivery waveguide assembly of claim 42 , wherein a length of the step-index delivery optical waveguide between the first and second ends is at least 1 m. 57 . The laser beam delivery waveguide assembly of claim 42 , wherein the step-index delivery optical waveguide comprises a polarization-maintaining waveguide, a polarizing waveguide, a chiral waveguide, or a spun waveguide for controlling polarization of the laser beam. 58 . The laser beam delivery waveguide assembly of claim 42 , wherein the step-index delivery optical waveguide is one of: a double-clad waveguide, a multi-clad waveguide, a photonic-crystal waveguide, or a micro-structured waveguide. 59 . The laser beam delivery waveguide assembly of claim 42 , further comprising: a vibrating unit, coupled to the step-index delivery optical waveguide, for vibrating the step-index delivery optical waveguide when the laser beam is launched therein. 60 . The laser beam delivery waveguide assembly of claim 59 , wherein the vibrating unit is one of: an acoustic transducer, an ultrasonic transducer, or a mechanical vibrator. 61 . A method for outputting a variable output spot size laser beam, the method comprising: guiding, by a step-index delivery optical waveguide having first and second ends, a laser beam from the first end to the second end; and coupling, by first and second graded-index optical elements fused to the first and second ends, respectively, the laser beam into the first end and out of the second end, respectively, of the step-index delivery optical waveguide.