Laser optical density measurement system
First Claim
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1. A densitometer comprising:
- (a) a splitter for splitting a laser into a sample beam, which may pass through an optical element under test, and a reference beam;
(b) a first photodetector disposed to receive light passing through the optical element;
(c) a lambertian diffusing plate disposed to be in the path of the reference beam to diffusely reflect the reference beam;
(d) reflected light detector means comprising a light limiting aperture and a second photodetector disposed in a fixed coaxial relationship therewith so that a beam of diffusely reflected light may pass through said aperture and enter said second photodetector, said reflected light detector means being movably disposed at an angle θ
relative to the path of the reference beam and at a distance x from said diffusing plate to said aperture, so that angle θ and
distance x may be varied thereby varying the intensity of light which may be received by said second photodetector; and
,(e) an instrument amplifier for comparing light intensity values received by said first and second photodetectors whereby, when the light values are equal, angle θ and
distance x have the following relationship to the optical density of the optical element;
##EQU10## where OD is the optical density of the optical element, Ps is the intensity of the sample beam,Rs is the sample beam ratio correction factor for said splitter,Pr is the intensity of the reference beam,Rr is the reference beam correction factor for said splitter,k is the reflectance value of said lambertian diffusing plate, andS is the aperture area of said limiting aperture.
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Abstract
An apparatus for measuring optical density of highly absorptive materials in which a beam splitter divides light from a laser source into a reference beam, which is directed to a reference detector, and a sample beam, which is reflected off a diffusing plate, through a light limiting aperture, and to a sample. The emanations from the sample are directed to a sample detector. An instrumentation amplifier compares the intensities of the two detectors. The aperture and reference detector are positioned so that the measured intensities are equal, and the optical density of the sample is calculated.
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Citations
5 Claims
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1. A densitometer comprising:
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(a) a splitter for splitting a laser into a sample beam, which may pass through an optical element under test, and a reference beam; (b) a first photodetector disposed to receive light passing through the optical element; (c) a lambertian diffusing plate disposed to be in the path of the reference beam to diffusely reflect the reference beam; (d) reflected light detector means comprising a light limiting aperture and a second photodetector disposed in a fixed coaxial relationship therewith so that a beam of diffusely reflected light may pass through said aperture and enter said second photodetector, said reflected light detector means being movably disposed at an angle θ
relative to the path of the reference beam and at a distance x from said diffusing plate to said aperture, so that angle θ and
distance x may be varied thereby varying the intensity of light which may be received by said second photodetector; and
,(e) an instrument amplifier for comparing light intensity values received by said first and second photodetectors whereby, when the light values are equal, angle θ and
distance x have the following relationship to the optical density of the optical element;
##EQU10## where OD is the optical density of the optical element, Ps is the intensity of the sample beam,Rs is the sample beam ratio correction factor for said splitter, Pr is the intensity of the reference beam, Rr is the reference beam correction factor for said splitter, k is the reflectance value of said lambertian diffusing plate, and S is the aperture area of said limiting aperture. - View Dependent Claims (2, 3, 4, 5)
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Specification