Probes having fiber taper and fluid collection channel for ophthalmic laser treatment

What is claimed is: 1. A treatment probe for treating an eye of a patient, the treatment probe comprising: an elongate body; a treatment fiber coupled with the elongate body and configured for delivering treatment light energy to the eye; and a contact member disposed on an end of the elongate body, the contact member including a fluid channel that is configured to aggregate fluid within the fluid channel from a surface of the eye so that the fluid contacts a distal end of the treatment fiber. 2. The treatment probe of claim 1 , wherein the contact member includes a contact surface for positioning on the surface of the eye and two side edges that are positioned on opposite sides of the contact surface, wherein the contact surface conforms to a shape of the eye and the two side edges are shaped to direct fluid toward the fluid channel when the contact member is moved laterally across the surface of the eye. 3. The treatment probe of claim 2 , wherein the two side edges of the contact member are angled or tapered toward the fluid channel so that a width of the contact surface is narrowest adjacent the fluid channel. 4. The treatment probe of claim 1 , wherein the contact member has an hourglass or bowtie configuration that is configured to funnel the fluid toward the fluid channel. 5. The treatment probe of claim 1 , wherein the distal end of the treatment fiber is centered within the fluid channel. 6. The treatment probe of claim 1 , wherein the fluid channel has an axial depth of between 3 μm and 300 μm. 7. The treatment probe of claim 1 , wherein the contact member includes a reference structure that is alignable with a reference feature of the eye. 8. The treatment probe of claim 1 , wherein the distal end of the treatment fiber includes an angle or bias cut that is configured to bend the treatment light energy toward the eye. 9. The treatment probe of claim 1 , further comprising a fiber taper element that is coupled with the distal end of the treatment fiber, the fiber taper element having a larger egress diameter than an ingress diameter. 10. The treatment probe of claim 9 , wherein the ingress diameter is between about 50 and 100 μm and the egress diameter is between about 600 and 1000 μm. 11. A method of treating an eye of a patient, the method comprising: providing a treatment probe comprising: an elongate body; a treatment fiber; and a contact member that is disposed on an end of the elongate body and that includes a fluid channel; positioning the contact member on a surface of the eye; moving the contact member laterally across the surface of the eye; and delivering light energy from a distal end of the treatment fiber; wherein as the contact member is moved laterally across the surface of the eye, fluid is aggregated within the fluid channel and into contact with the distal end of the treatment fiber. 12. The method of claim 11 , wherein the distal end of the treatment fiber is centered within the fluid channel so that the distal end of the treatment fiber is fully wettable by the fluid aggregated within the fluid channel. 13. The method of claim 11 , wherein the contact member includes a contact surface for positioning on the surface of the eye and two side edges that are positioned on opposite sides of the contact surface, wherein the contact surface conforms to a shape of the eye and the two side edges are shaped to direct the fluid toward the fluid channel when the contact member is moved laterally across the surface of the eye. 14. The method of claim 13 , wherein the two side edges of the contact member are angled or tapered toward the fluid channel so that a width of the contact surface is narrowest adjacent the fluid channel. 15. The method of claim 11 , further comprising applying an irrigation fluid to the surface of the eye. 16. The method of claim 11 , wherein delivering the light energy from the distal end of the treatment fiber includes delivering a plurality of pulses of the light energy. 17. The method of claim 11 , wherein the light energy is delivered angularly offset from an optical axis of the eye. 18. The method of claim 11 , wherein positioning the contact member on the surface of the eye comprises positioning a reference structure of the contact member in alignment with a reference feature of the eye. 19. The method of claim 11 , wherein delivering the light energy from the distal end of the treatment fiber includes delivering the light energy through an angle cut of the distal end of the treatment fiber. 20. The method of claim 11 , further comprising delivering the light energy through a fiber taper element that is coupled with the distal end of the treatment fiber, the fiber taper element having a larger egress diameter than an ingress diameter.