An adjusting ophthalmic docking system is described that includes a curved contact element, disposed on a procedure eye, a conformation platform at a distal tip of an optical system to support an adjustment of the curved contact element, and a connector to accommodate the adjustment of the contact e
An adjusting ophthalmic docking system is described that includes a curved contact element, disposed on a procedure eye, a conformation platform at a distal tip of an optical system to support an adjustment of the curved contact element, and a connector to accommodate the adjustment of the contact element. The curved contact element can be a meniscus-shaped contact lens, with a proximal surface radius larger than a distal surface radius. The contact lens can be made of an approximately refractive index-matching material, such as a fluoro-polymer.
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1. An adjusting ophthalmic docking system, comprising: a curved contact element, configured to be disposed on a procedure eye;a conformation platform at a distal tip of an optical system, configured to support an adjustment of the curved contact element, andto movably contact the contact element via
1. An adjusting ophthalmic docking system, comprising: a curved contact element, configured to be disposed on a procedure eye;a conformation platform at a distal tip of an optical system, configured to support an adjustment of the curved contact element, andto movably contact the contact element via at least one of a cylindrical distal end and an annular sphere-segment; anda connector, configured to accommodate the adjustment of the contact element. 2. The adjusting ophthalmic docking system of claim 1, wherein: the conformation platform is configured to support a rotational adjustment of the contact element. 3. The adjusting ophthalmic docking system of claim 2, wherein: the conformation platform is configured to support a translational adjustment of the contact element. 4. The adjusting ophthalmic docking system of claim 1, wherein: the connector comprises at least one of a flexible element, an elastic element, a magnetic coupling element, a vacuum-suction element, a gravitational connector, a frictional connector and a viscous connector. 5. The adjusting ophthalmic docking system of claim 1, wherein: the conformation platform and the connector are configured such that the optical system having the adjusting docking system is capable of forming a corneal cut with a radial depth between 50 microns and 200 microns when the contact element is docked on the procedure eye 1 mm from a center of a limbus of the eye. 6. The adjusting ophthalmic docking system of claim 1, wherein: the conformation platform and the connector are configured such that the optical system having the adjusting docking system is capable of forming a corneal cut with a radial depth between 70 microns and 130 microns when the contact element is docked on the procedure eye 1 mm from a center of a limbus of the eye. 7. The adjusting ophthalmic docking system of claim 1, wherein: the conformation platform and the connector are configured such that the optical system having the adjusting docking system is capable of forming a corneal cut with angle of less than 1 milliradian relative to a corresponding surface element of the procedure eye when the contact element is docked on the procedure eye 1 mm from a center of a limbus of the eye. 8. The adjusting ophthalmic docking system of claim 1, wherein: the conformation platform and the connector are configured such that the optical system having the adjusting docking system is capable of forming a corneal cut with angle of less than 0.5 milliradian relative to a corresponding surface element of the procedure eye when the contact element is docked on the procedure eye 1 mm from a center of a limbus of the eye. 9. The adjusting ophthalmic docking system of claim 1, wherein: the curved contact element is part of a patient interface. 10. The adjusting ophthalmic docking system of claim 9, wherein: the connector is connectable to the patient interface. 11. The adjusting ophthalmic docking system of claim 9, wherein: the connector is part of the patient interface. 12. The adjusting ophthalmic docking system of claim 1, wherein: the patient interface is one of a one-piece patient interface, a multi-piece patient interface and a laterally movable patient interface. 13. The adjusting ophthalmic docking system of claim 1, the contact element comprising: a meniscus-shaped lens, having a proximal surface with a first radius; anda distal surface with a second radius, wherein the second radius is smaller than the first radius. 14. The ophthalmic docking system of claim 13, wherein: the proximal surface and the distal surface are concentric. 15. The adjusting ophthalmic docking system of claim 14, wherein: the second radius is less than 20 mm. 16. The adjusting ophthalmic docking system of claim 14, wherein: the second radius is less than 15 mm. 17. The adjusting ophthalmic docking system of claim 1, the curved contact element comprising: an optically transmissive lens, having an index of refraction less than 1.55. 18. The adjusting ophthalmic docking system of claim 1, the curved contact element comprising: an optically transmissive lens, having an index of refraction less than 1.44. 19. The adjusting ophthalmic docking system of claim 1, the curved contact element comprising: an optically transmissive lens, comprising a fluoro-polymer. 20. The adjusting ophthalmic docking system of claim 1, wherein: the optical system is configured such that an aberration measure of a laser beam of the optical system varies less than 10 percent within a circle of radius of 2 mm when the curved contact element is attached to the optical system 1 mm off-center. 21. The ophthalmic docking system of claim 1, comprising: a lock, lockable to hold the curved contact lens fixed relative to the distal tip of the optical system.
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