Multiple beam laser system for forming stents

What is claimed: 1. A method of simultaneously cutting a pattern into multiple stents using the output of a single laser, comprising: providing a single laser; emitting a first linearly polarized laser beam from the single laser; transmitting and reflecting the first linearly polarized laser beam into a second linearly polarized laser beam and a third linearly polarized laser beam using a first beam splitter; transmitting and reflecting the second linearly polarized laser beam into a fourth linearly polarized laser beam and a fifth linearly polarized laser beam using a second beam splitter; transmitting and splitting the third linearly polarized laser beam into a sixth linearly polarized laser beam and a seventh linearly polarized laser beam using a third beam splitter; positioning a half wave plate in an optical path of each of the fourth, fifth, sixth and seventh laser beams, and rotating the half wave plate to alter the polarization direction of each laser beam; positioning a polarizer in the optical path of each of the fourth, fifth, sixth and seventh laser beams and adjusting the laser power of the laser beam at a selected polarization direction; positioning an adjustable beam expander in the optical path of each of the fourth, fifth, sixth and seventh laser beams for adjusting the size of the laser beam; positioning a quarter-wave plate in the path of each of the fourth, fifth, sixth and seventh laser beams after the beam splitter and any intervening mirrors for introducing circular polarization into the laser beams; using a focusing lens for focusing each of the fourth, fifth, sixth and seventh laser beams to a desired spot size; and controlling a circularly polarized beam spot for each of the fourth, fifth, sixth and seventh laser beams to accurately cut the stent pattern into the stent work piece upon which each of the fourth, fifth, sixth and seventh laser beam impinges. 2. The method of claim 1 , wherein the optical path traveling downstream for each of the fourth, fifth, sixth and seventh laser beams includes positioning, in order, the half wave plate, the polarizer, the adjustable beam expander, the quarter wave plate and the focusing lens. 3. The method of claim 2 , wherein individually adjusting the respective beam expanders and focusing lenses to individually control the spot size for each of the fourth, fifth, sixth and seventh laser beams. 4. The method of claim 3 , wherein using a modulator and a switch to independently control the repetition rate, power level and on/off control of each of each of the fourth, fifth, sixth and seventh laser beams.