Interferometer having a reference fluid tank with a prism and a motion matching window for characterizing a contact lens

What is claimed is: 1. A method for simulating a whole lens reconstruction, the method comprising: generating a light beam from an optics assembly, wherein said optics assembly includes a light source to generate a low coherence light beam, and at least one collimation lens configured to provide the light beam with a planar wavefront; splitting the light beam with a beam splitter into a first light beam and a second light beam; propagating the first light beam to a measurement assembly, wherein the measurement assembly includes a cuvette containing at least one chamber filled with fluid in which a contact lens sits, and a mounting structure on which the contact lens is placed into a position for receiving of the first light beam, the measurement assembly directing the first light beam onto a contact lens surface to cause return of a first reflected light beam back towards the beam splitter; propagating the second light beam to a reference assembly, wherein the reference assembly includes a reference prism configured to match the optical path lengths and material dispersions of the second light beam to the optical path lengths and material dispersions of the first beam in said measurement assembly, a tank filled with fluid and configured to at least partially submerge the reference prism into, and a reference tank window configured to provide shifting motion of the second light beam to balance the motion of the contact lens in the fluid filled cuvette, and wherein the reference prism causes the second light beam to pass through the reference prism and return a second reflected light beam through the fluid in the tank to the beam splitter; combining the first reflected light beam and the second reflected light beam with the beam splitter to form a combined light beam; directing the combined light beam from the beam splitter to an imaging assembly having a detector, wherein the imaging assembly detecting with the detector at least one fringe pattern of said combined light beam and interference patterns of said combined light beam to form an optical image of the contact lens; moving the contact lens held in the cuvette through a series of measurement positions to provide a plurality of optical images to be detected by the imaging assembly; correcting at least one optical image for any refractions that are present from another surface of the contact lens that arise during measurement; and producing a whole lens reconstruction based on the plurality of optical images of the contact lens, and wherein the whole lens reconstruction includes the at least one thickness of the contact lens and surface properties of the plurality of contact lens surfaces.