Patent ID: 9702819
Date: 2017-07-11
CPC Classifications: G01N,G01S

Claim:
1. A system for detection of glints on a water surface, said system comprising: a laser capable of emitting at least one pulse of a laser light beam of a diameter D onto a pulse location at the water surface; a half wave plate operationally connected to said laser wherein said half wave plate is capable of creating linearly polarized light of the at least one pulse of laser light beam; a first lens operationally connected to said half wave plate opposite to a side of said half wave plate connected to said laser wherein said first lens is capable of focusing the at least one pulse of a light beam to a diameter d a first unit image magnification telescope including a first magnification telescope lens and a second magnification telescope lens, said first magnification telescope lens operationally connected to said first lens opposite to a side of said first lens connected to said half wave plate; a power telescope including a first power telescope lens and a second power telescope lens, said first power telescope lens operationally connected to said second magnification telescope lens on an opposite side of said second magnification telescope lens connected to first magnification telescope lens; a polarizing beam splitter positioned between said second magnification telescope lens of said first unit image magnification telescope and said first magnification telescope lens wherein said polarizing beam splitter is capable of deflecting a portion of the at least one pulse of a laser light beam; a second lens operationally connected to said polarizing beam splitter wherein said second lens is capable of focusing the portion of the at least one pulse of a laser light beam from said polarizing beam splitter; a high speed detector operationally connected to said second lens opposite to a side of said second lens connected to said polarizing beam splitter, wherein said high speed detector is capable of receiving the portion of the at least one light pulse of a laser light beam; a digitizer operationally connected to said high speed detector via a cable opposite to a side of said high speed detector connected to said second lens wherein said digitizer is capable of monitoring the portion of the at least one light pulse; a quarter wave plate operationally connected to said second telescope lens of said power telescope wherein said quarter wave plate is capable of emitting the at least one light pulse as circularly polarized light; a second unit image magnification telescope including said second telescope lens of said first magnification telescope as a first telescope lens of said second magnification telescope and including a second magnification telescope lens of said second unit image magnification telescope, said second magnification telescope lens of said second unit image magnification telescope operationally connected to said polarizing beam splitter separate from a connection of said polarizing beam splitter to said second lens; a first section positioned between said polarizing beam splitter and said second magnification telescope lens of said second unit image magnification telescope, said first section including an aperture sized to the diameter of the at least one light pulse; an interference filter operationally connected to said second magnification telescope lens of said second unit image magnification telescope on a side of said second magnification telescope lens of said second unit image magnification telescope connected to said first section, said interference filter capable of passing light only at a wavelength of the at least one pulse of a laser light beam; a second section operationally connected to said interference filter opposite to a side of said interference filter connected to said second magnification telescope lens of said second unit image magnification telescope, said second section including an aperture sized to the diameter of the at least one pulse; a broad band detector operationally connected to said second section on a first side opposite to a side of said second section operationally connected to said interference filter and said broad band detector operationally connected to said digitizer opposite said first side; and a computer operationally connected to said digitizer opposite to a side connected to said broad band detector; wherein a combination of said first telescope lens of said second unit magnification telescope and second telescope lens of said second unit magnification telescope is capable of afocal imaging with a lateral magnification M and a longitudinal magnification M wherein the image of the pulse location is reflected as at least one glint from the water surface and can be received by said quarter wave plate to become a linearly polarized light so that the linearly polarized light can be reflected by said polarizing beam splitter; wherein said digitizer is capable of receiving output of the at least glint from said broadband detector and said computer is capable of receiving output from said digitizer for analyzing the output.