 Phasics wave front sensor, based on lateral shearing interferometry, fulfils wavefront aberrometer needs. The main features of Phasics SID4 sensor are:
- compactness
- insensitivity to alignment
- tunable dynamic range
- its intrinsic high resolution
All of these characteristics are very useful for wavefront aberrometer.
Thanks to its insensitivity to alignment, the patient eye moves are no longer a source of error in ophthalmic wavefront measurement.
Phasics technology allows wavefront aberrometer reaching high resolution in wavefront ophthalmic measurement. It is, for instance, useful for high resolution retina imaging through the use of the must recent advanced devices in adaptive optics such as LCD or MEMS.
We can detail you the latest advancements with a new generation of wavefront aberrometer in ophthalmic wavefront corrections poised to revolutionize eye care.
Contact Phasics for more information on wavefront aberrometer measurement.
aberration control | adaptive optic loops | adaptive optics | flatness optical measurement | focal spot shaping | interferometer | interferometers | laser beam analyser | laser beam analysis | laser beam sensor | laser beam shaping | laser vision correction | lateral shearing interferometer | lateral shearing interferometry | oasys | ophthalmic wavefront | optical metrology | phase control | phase sensing | phasics | roughness optical measurement | shack hartmann | shack hartmann sensor | sid4 | wavefront aberrometer | wavefront analyser | wavefront analysis | wavefront_control.html | wavefront correction | wavefront sensor |
Phasics, innovating technology for