Optical rotation angle polarimeter
First Claim
1. An optical rotation angle polarimeter for investigating optical activity of a test object, comprising:
- a two-frequency laser source for generating a laser beam with two eigen modes of two different temporal frequencies and two orthogonal linear polarized waves, the laser beam to be passed through the test object;
a polarized beam splitter adapted to receive and split the laser beam, which exits the test object, into first and second orthogonal optical heterodyne interference X-axis and Y-axis components;
first and second photo detectors, each of which receives a respective one of the first and second orthogonal optical heterodyne interference X-axis and Y-axis components from said polarized beam splitter and generates a corresponding optical heterodyne interference signal;
a signal processor, connected to said first and second photo detectors, for combining the optical heterodyne interference signals therefrom so as to obtain an optical heterodyne interference output; and
an amplitude detector for detecting amplitude of the optical heterodyne interference output, which serves as a measure of the optical activity of the test object.
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Accused Products
Abstract
In an optical rotation angle polarimeter for investigating optical activity of a test object, a two-frequency laser source generates a laser beam with two eigen modes of two different temporal frequencies and two orthogonal linear polarized waves. The laser beam is to be passed through the test object. The polarized beam splitter is adapted to receive and split the laser beam, which exits the test object, into first and second orthogonal optical heterodyne interference X-axis and Y-axis components. Each of first and second photo detectors receives a respective one of the first and second orthogonal optical heterodyne interference X-axis and Y-axis components from the polarized beam splitter, and generates a corresponding optical heterodyne interference signal. A signal processor is connected to the first and second photo detectors, and combines the optical heterodyne interference signals therefrom so as to obtain an optical heterodyne interference output. An amplitude detector detects the amplitude of the optical heterodyne interference output, which serves as a measure of the optical activity of the test object. In addition, the laser beam has an adjustable wavelength to permit measurement of dispersion of optical rotation angles versus wavelength for an optically active material or substance.
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Citations
19 Claims
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1. An optical rotation angle polarimeter for investigating optical activity of a test object, comprising:
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a two-frequency laser source for generating a laser beam with two eigen modes of two different temporal frequencies and two orthogonal linear polarized waves, the laser beam to be passed through the test object;
a polarized beam splitter adapted to receive and split the laser beam, which exits the test object, into first and second orthogonal optical heterodyne interference X-axis and Y-axis components;
first and second photo detectors, each of which receives a respective one of the first and second orthogonal optical heterodyne interference X-axis and Y-axis components from said polarized beam splitter and generates a corresponding optical heterodyne interference signal;
a signal processor, connected to said first and second photo detectors, for combining the optical heterodyne interference signals therefrom so as to obtain an optical heterodyne interference output; and
an amplitude detector for detecting amplitude of the optical heterodyne interference output, which serves as a measure of the optical activity of the test object. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19)
a beam splitter adapted to be disposed between said laser source and the test object to split the laser beam into a test beam that is to be passed through the test object, and a reference beam;
an optical analyzer having the reference beam passing therethrough; and
a third photo detector for receiving the reference beam from said optical analyzer and for generating a reference optical heterodyne interference signal corresponding thereto.
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10. The optical rotation angle polarimeter as claimed in claim 9, further comprising a third band-pass filter interconnecting said third photo detector and said amplitude detector.
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11. The optical rotation angle polarimeter as claimed in claim 10, wherein said third band-pass filter has a center frequency set at a beat frequency of the two different temporal frequencies.
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12. The optical rotation angle polarimeter as claimed in claim 10, wherein the reference optical heterodyne interference signal from said third photo detector and processed by said third band-pass filter is received by said amplitude detector.
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13. The optical rotation angle polarimeter as claimed in claim 12, wherein said amplitude detector is a digital voltmeter.
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14. The optical rotation angle polarimeter as claimed in claim 12, wherein said amplitude detector is a lock-in amplifier.
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15. The optical rotation angle polarimeter as claimed in claim 9, wherein said optical analyzer is a linear analyzing polarizer.
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16. The optical rotation angle polarimeter as claimed in claim 6, wherein the test object is a human eye, and said computer further converts the optical rotation angle into concentration of glucose in aqueous humor of the human eye.
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17. The optical rotation angle polarimeter as claimed in claim 16, further comprising an electronic shutter adapted to be disposed between said laser source and the test object.
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18. The optical rotation angle polarimeter as claimed in claim 16, further comprising a lens set and a pattern display panel which cooperatively present a visual image for fixing the human eye under test.
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19. The optical rotation angle polarimeter as claimed in claim 1, wherein the laser beam has an adjustable wavelength to permit measurement of dispersion of optical rotation angles versus wavelength for an optically active material or substance.
Specification