Confocal laser eye surgery system

What is claimed is: 1. A method of imaging an eye, the method comprising: focusing a first electromagnetic radiation beam to a focal point at a first plurality of locations in the eye, the first electromagnetic radiation beam having a first polarization; focusing a second electromagnetic radiation beam to a focal point at a second plurality of locations in the eye, the second electromagnetic radiation beam having a second polarization different than the first polarization; generating a first intensity signal indicative of an intensity of electromagnetic radiation reflected from the eye detected by a confocal detector in response to the step of focusing the first electromagnetic radiation beam; generating a second intensity signal indicative of an intensity of electromagnetic radiation reflected from the eye detected by the confocal detector in response to the step of focusing the second electromagnetic radiation beam; generating one or more images of the eye with the first and second intensity signals and utilizing these signals for treatment planning; identifying an anterior surface of a cornea of the eye using the first intensity signal; and identifying at least a portion of a posterior surface of the cornea using the second intensity signal. 2. The method of claim 1 , wherein the first and second electromagnetic radiation beams are focused using a beam scanner; wherein the step of focusing the first electromagnetic radiation beam includes scanning the focal point of the first electromagnetic radiation beam to the first plurality of locations in a first region of the eye; wherein the step of focusing the second electromagnetic radiation beam includes scanning the focal point of the second electromagnetic radiation beam to the second plurality of locations in a second region of the eye; wherein the step of generating the first intensity signal includes generating a first intensity profile indicative of intensities of electromagnetic radiation reflected from the eye in response to the step of scanning the focal point of the first electromagnetic radiation beam; and wherein the step of generating the second intensity signal includes generating a second intensity profile indicative of intensities of electromagnetic radiation reflected from the eye in response to the step of scanning the focal point of the second electromagnetic radiation beam, and wherein one image of the eye is generated per the first and second intensity profiles. 3. The method of claim 2 , wherein the beam scanner comprises an XY-scan device that is configured to deflect the first and second electromagnetic radiation beams in two dimensions transverse to a propagation of first and second electromagnetic radiation beams, and wherein the focal point of the first and second electromagnetic radiation beam is scanned in the two dimensions using the XY-scan device; and wherein the one image of the eye has at least two dimensions; and wherein the beam scanner comprises a Z-scan device that is configured to vary a convergence depth of the beam within the eye, wherein the focal point of the first and second electromagnetic radiation beam is scanned in three dimensions using the XY-scan device and the Z-scan device, and wherein the one image of the eye is three dimensional. 4. The method of claim 1 , further comprising: generating the first electromagnetic radiation beam by passing an electromagnetic radiation beam through a wave plate in a first position so as to polarize the electromagnetic radiation beam with the first polarization; rotating the wave plate by an angle to a second position; and generating the second electromagnetic radiation beam by passing the electromagnetic radiation beam through the wave plate in the second position. 5. The method of claim 4 , further comprising: passing electromagnetic radiation reflected from the eye in response to the step of passing the first electromagnetic radiation beam through the wave plate in the first position; and passing the electromagnetic radiation reflected from the eye in response to the step of passing the second electromagnetic radiation beam through the wave plate in the second position. 6. The method of claim 4 , wherein the step of focusing the first electromagnetic radiation beam includes scanning the focal point of the first electromagnetic radiation beam to the first plurality of locations in the eye; wherein the step of focusing the second electromagnetic radiation beam includes scanning the focal point of the second electromagnetic radiation beam to at least a portion of the second plurality of locations in the eye; wherein the step of generating the first intensity signal includes generating a first intensity profile indicative of an intensity of electromagnetic radiation reflected from the eye in response to the step of scanning the focal points of the first electromagnetic radiation beam; wherein the step of generating the second intensity signal includes generating a second intensity profile indicative of an intensity of electromagnetic radiation reflected from the eye in response to the step of scanning the focal points of the second electromagnetic radiation beam; and generating an image of the eye with the first and second intensity profiles. 7. The method of claim 1 , further comprising: receiving a plurality of parameters corresponding to the treatment planning; generating a three-dimensional representation of the treatment planning; mapping the three-dimensional representation onto one of the one or more images of the eye to generate a mapped image; and displaying the mapped image for the treatment planning. 8. The method of claim 7 , wherein the treatment planning comprises an arcuate incision. 9. The method of claim 8 , further comprising: verifying the arcuate incision lies within the cornea. 10. The method of claim 7 , wherein the received parameters comprise a treatment axis and a treatment length transverse to the axis. 11. The method of claim 10 , wherein the one of the one or more images of the eye is in a plane of the treatment axis and the treatment length. 12. The method of claim 7 , wherein the three-dimensional representation is mapped onto the one of the one or more images of the eye by projecting the three-dimensional representation onto a two-dimensional space. 13. The method of claim 7 , wherein the mapped image comprises the cornea of the eye including the anterior surface and the posterior surface of the cornea. 14. A method of imaging a cornea or lens of an eye, the cornea or lens having an anterior surface and a posterior surface, the method comprising: generating a first electromagnetic radiation beam using a beam source; passing the first electromagnetic radiation beam through a wave plate; propagating the first electromagnetic radiation beam to a beam scanner; focusing the first electromagnetic radiation beam to a focal point at a first plurality of locations in the cornea of the eye using the beam scanner; receiving a first reflected electromagnetic radiation from the focal point after focusing the first electromagnetic radiation beam; directing the first received electromagnetic radiation through the wave plate and towards a sensor; generating a first intensity signal indicative of an intensity of the first received electromagnetic radiation; rotating the wave plate an angle after generating the first intensity signal; passing a second electromagnetic radiation beam through the rotated wave plate; focusing the second electromagnetic radiation beam to a focal point at a second plurality of locations in the cornea of the eye using t