Customized laser epithelial ablation systems and methods

1 . A method for treating an eye of a patient using a laser, the eye having an epithelial layer and a stromal layer, the method comprising: receiving, at a processor system, a refractive optical property of the eye; receiving, at the processor system, an epithelial thickness map of the eye; receiving, at the processor system, an epithelial basis data corresponding to an epithelial laser pulse ablation profile for a first individual laser beam pulse; receiving, at the processor system, a stromal basis data corresponding to a stromal laser pulse ablation profile for a second individual laser beam pulse; and executing, using the processor system, computer executable code stored on a non-transitory computer readable medium, the computer executable code comprising instructions for the laser to ablate the epithelial layer with an epithelial arrangement of laser beam pulses, the epithelial arrangement comprising the first individual laser pulse corresponding to the epithelial basis data and to ablate the stromal layer with a stromal arrangement of laser beam pulses, the stromal arrangement comprising the second individual laser pulse corresponding to the stromal basis data, the instructions based on the refractive optical property of the eye and the epithelial thickness map of the eye, thereby treating the eye of the patient using the laser, wherein the stromal laser pulse ablation profile has an inner portion flat curvature and the epithelial laser pulse ablation profile has an inner portion flat curvature that is sized differently than the inner portion flat curvature of the stromal laser pulse ablation profile, or wherein the stromal laser pulse ablation profile has an inner portion convex curvature and the epithelial laser pulse ablation profile has an inner portion convex curvature that is sized differently than the inner portion convex curvature of the stromal laser pulse ablation profile. 2 . The method according to claim 1 , wherein the stromal laser pulse ablation profile has the inner portion flat curvature and the epithelial laser pulse ablation profile has the inner portion flat curvature that is sized differently than the inner portion flat curvature of the stromal laser pulse ablation profile. 3 . The method according to claim 1 , wherein the stromal laser pulse ablation profile has the inner portion convex curvature and the epithelial laser pulse ablation profile has the inner portion convex curvature that is sized differently than the inner portion convex curvature of the stromal laser pulse ablation profile. 4 . The method according to claim 1 , wherein the stromal laser pulse ablation profile is different in depth from the epithelial laser pulse ablation profile. 5 . The method according to claim 1 , wherein the stromal laser pulse ablation profile is different in size from the epithelial laser pulse ablation profile. 6 . The method according to claim 1 , wherein the stromal laser pulse ablation profile and the epithelial laser pulse ablation profile have the same beam diameter. 7 . The method according to claim 1 , wherein the stromal laser pulse ablation profile has a central depth of ablation and the epithelial laser pulse ablation profile has a central depth of ablation that is different from the central depth of ablation of the stromal laser pulse ablation profile. 8 . A method for treating an eye of a patient using a laser, the eye having an epithelial layer and a Bowman's layer, the method comprising: receiving, at a processor system, a refractive optical property of the eye; receiving, at the processor system, an epithelial thickness map of the eye; receiving, at the processor system, an epithelial basis data corresponding to an epithelial laser pulse ablation profile for a first individual laser beam pulse; receiving, at the processor system, a Bowman's basis data corresponding to a Bowman's laser pulse ablation profile for a second individual laser beam pulse; and executing, using the processor system, computer executable code stored on a non-transitory computer readable medium, the computer executable code comprising instructions for the laser to ablate the epithelial layer with an epithelial arrangement of laser beam pulses, the epithelial arrangement comprising the first individual laser pulse corresponding to the epithelial basis data and to ablate the Bowman's layer with a Bowman's arrangement of laser beam pulses, the Bowman's arrangement comprising the second individual laser pulse corresponding to the Bowman's basis data, the instructions based on the refractive optical property of the eye and the epithelial thickness map of the eye, thereby treating the eye of the patient using the laser, wherein the Bowman's laser pulse ablation profile has an inner portion flat curvature and the epithelial laser pulse ablation profile has an inner portion flat curvature that is sized differently than the inner portion flat curvature of the Bowman's laser pulse ablation profile, or wherein the Bowman's laser pulse ablation profile has an inner portion convex curvature and the epithelial laser pulse ablation profile has an inner portion convex curvature that is sized differently than the inner portion convex curvature of the Bowman's laser pulse ablation profile. 9 . The method according to claim 8 , wherein the Bowman's laser pulse ablation profile has the inner portion flat curvature and the epithelial laser pulse ablation profile has the inner portion flat curvature that is sized differently than the inner portion flat curvature of the Bowman's laser pulse ablation profile. 10 . The method according to claim 8 , wherein the Bowman's laser pulse ablation profile has the inner portion convex curvature and the epithelial laser pulse ablation profile has the inner portion convex curvature that is sized differently than the inner portion convex curvature of the Bowman's laser pulse ablation profile. 11 . The method according to claim 8 , wherein the Bowman's laser pulse ablation profile is different in depth from the epithelial laser pulse ablation profile. 12 . The method according to claim 8 , wherein the Bowman's laser pulse ablation profile is different in size from the epithelial laser pulse ablation profile. 13 . The method according to claim 8 , wherein the Bowman's laser pulse ablation profile and the epithelial laser pulse ablation profile have the same beam diameter. 14 . The method according to claim 8 , wherein the Bowman's laser pulse ablation profile has a central depth of ablation and the epithelial laser pulse ablation profile has a central depth of ablation that is different from the central depth of ablation of the Bowman's laser pulse ablation profile. 15 . A method for treating an eye of a patient using a laser, the eye having a stromal layer and a Bowman's layer, the method comprising: receiving, at a processor system, a refractive optical property of the eye; receiving, at the processor system, an epithelial thickness map of the eye; receiving, at the processor system, a Bowman's basis data corresponding to a Bowman's laser pulse ablation profile for a first individual laser beam pulse; receiving, at the processor system, a stromal basis data corresponding to a stromal laser pulse ablation profile for a second individual laser beam pulse; and executing, using the processor system, computer executable code stored on a non-transitory computer readable medium, the computer executable code comprising instructions for the laser to ablate the Bowman's layer with a Bowman's arrangement of laser beam pulses, the Bowman's arrangement comprising the first individual laser p