초록 ▼

A laser eye surgery system includes a laser for producing a laser beam capable of making refractive corrections, an optical system for shaping and conditioning the laser beam, a digital micromirror device (DMD) for reflecting the shaped and conditioned beam toward the eye, a computer system for cont

A laser eye surgery system includes a laser for producing a laser beam capable of making refractive corrections, an optical system for shaping and conditioning the laser beam, a digital micromirror device (DMD) for reflecting the shaped and conditioned beam toward the eye, a computer system for controlling the mirrors of the DMD, and an eye tracking system which tracks the position of the eye and provides feedback to the computer system. The computer system includes software which permits the DMD to emulate the patterns and laser beam control provided in all prior art broadbeam systems and scanning spot systems. All that is required is a selection in the software to operate thereunder. Moreover, the laser surgery system can be coupled to or adapted to receive data from corneal topographers or wavefront sensor systems and utilize such data to increase the quality of correction above and beyond prior approaches. Furthermore, the laser surgery system can provide much greater resolution than prior art systems.

대표청구항 ▼

1. A laser surgery system for reshaping the cornea of the eye, said system comprising: a) a computer system adapted to define correction data for the eye and including control software for a broadbeam mode of operation and a scanning spot mode of operation; b) a laser coupled to said computer sy

1. A laser surgery system for reshaping the cornea of the eye, said system comprising: a) a computer system adapted to define correction data for the eye and including control software for a broadbeam mode of operation and a scanning spot mode of operation; b) a laser coupled to said computer system and adapted to produce laser beam pulses, each laser beam pulse adapted to ablate an etch-depth of corneal tissue; and c) a digital micromirror device (DMD) having a plurality of mirrors adapted to modulate the laser beam pulses produced by said laser such that the cornea of the eye is reshaped according to the correction data, said control software adapted to permit said computer system to, on demand and in the alternative, either modulate said laser beam in accord with said broadbeam mode of operation in which, for each of at least two etch-depth layers of corneal tissue requiring ablation according to said correction data, a single laser pulse is modulated by said DMD to impinge upon said each layer to ablate all corneal tissue to be removed in said each layer, or modulate said laser beam in accord with said scanning spot mode of operation in which, for each of at least two etch-depth layers of corneal tissue requiring ablation according to said correction data, multiple laser pulses are modulated by said DMD to impinge upon said each layer of corneal tissue, said multiple laser pulses together ablating all tissue to be removed in said each layer. 2. A laser surgery system according to claim 1, wherein: in said scanning spot mode of operation, ablation patterns for said plurality of mirrors of said DMD are generated by said computer and said ablation patterns include at least one of i) circles, ii) rectangle, iii) corneal to topography pattern, and iv) wavefront analysis patterns. 3. A laser surgery system according to claim 1, wherein: said laser beam is modulated based on correction data derived from a lenticule equation. 4. A laser surgery system according to claim 3, wherein: said lenticule equation is based on thin lens theory and paraxial optics applied to a single spherical surface. 5. A laser surgery system according to claim 3, wherein: said lenticule equation is a higher order equation. 6. A laser surgery system according to claim 1, wherein: said computer is adapted to generate a sequence of one-bit resolution images together defining a reshaping profile for the cornea. 7. A laser surgery system according to claim 6, further comprising: d) a video display, wherein said DMD is adapted to modulate said plurality of mirrors in a sequence of patterns corresponding to said one-bit resolution images, and said video display displays said sequence of patterns. 8. A laser surgery system according to claim 6, wherein: each of said one-bit resolution images corresponds to a distinct etch-depth layer of the cornea.