Optical phase modulator for high resolution phase measurements
First Claim
1. An optical phase modulator for producing two polarized-modulated laser beams from a laser source comprising:
- a first length of a polarization preserving fiber-optic conductor having an input for receiving a polarized laser beam and an output;
a second length of a polarization preserving fiber-optic conductor having an input and an output;
an input polarizer for polarizing a laser beam as it passes into the input of the first fiber-optic conductor so that the direction of its polarization forms a 45°
angle to an axis X in an orthogonal X-Y coordinates in the cross-section of said first fiber-optic conductor;
an input optical coupler which connects together the first and second fiber-optic conductors, the input optical coupler having a means for splitting a polarized laser beam propagating into the first fiber-optic conductor input into a first component which further propagates through the first fiber-optic conductor and a second component which further propagates through the second fiber-optic conductor;
an optical phase shifter connected to said first fiber-optic conductor for phase modulating the said first component;
an output optical coupler connecting the first and second fiber-optic conductors so that each output of each fiber-optic conductor has a complementary coherent mixture of said first component and said second component with an orthogonal direction of linear polarization, the output of said first fiber-optic conductor producing a first optical beam and the output of the second fiber-optic conductor producing a second optical beam; and
a quarter-wave plate structure for introducing a phase delay, said quarter-wave plate structure having a first window and a second window, said first window being aligned with the output of said first fiber-optic conductor for producing a first polarized-modulated optical beam and the second window being aligned with the second fiber-optic conductor for producing a second polarized modulated beam.
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Abstract
A pocket-type apparatus for non-invasive measurement of blood glucose concentration based on producing a polarized-modulated laser beam via an optical phase shifter (32), measuring a phase difference introduced, e.g., by a finger (F) or a ear lobule (E) of a subject, measuring phase difference between a reference signal (SR) and a measurement signal (SM), and processing the obtained data which are then presented as blood glucose concentration. The optical phase shifter (32) comprises a pair of fiber-optic arms (40 and 42). The laser beam is fed to one of the fiber-optic arms (4) then both arms are guided through an input optical coupler (44) which splits the laser beam into a first component, which further propagates through the first optic-fiber arm (40), and a second component, which propagates through second optic-fiber arm (42). An optical phase shifter (48) which is attached to the first fiber-optic arm (40) modulates the first component of the laser beam. Both arms are then guided through an output optical coupler (46) which coherently mixes the light-propagating modes of the fiber-optic arms so that the output of each arm has a complementary coherent mixture of the beam first and second components with an orthogonal direction of polarization. An output of one of the fiber-optic arms is used as a reference optical signal and an output of the other fiber-optic arm is used as a measuring optical signal.
140 Citations
5 Claims
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1. An optical phase modulator for producing two polarized-modulated laser beams from a laser source comprising:
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a first length of a polarization preserving fiber-optic conductor having an input for receiving a polarized laser beam and an output; a second length of a polarization preserving fiber-optic conductor having an input and an output; an input polarizer for polarizing a laser beam as it passes into the input of the first fiber-optic conductor so that the direction of its polarization forms a 45°
angle to an axis X in an orthogonal X-Y coordinates in the cross-section of said first fiber-optic conductor;an input optical coupler which connects together the first and second fiber-optic conductors, the input optical coupler having a means for splitting a polarized laser beam propagating into the first fiber-optic conductor input into a first component which further propagates through the first fiber-optic conductor and a second component which further propagates through the second fiber-optic conductor; an optical phase shifter connected to said first fiber-optic conductor for phase modulating the said first component; an output optical coupler connecting the first and second fiber-optic conductors so that each output of each fiber-optic conductor has a complementary coherent mixture of said first component and said second component with an orthogonal direction of linear polarization, the output of said first fiber-optic conductor producing a first optical beam and the output of the second fiber-optic conductor producing a second optical beam; and a quarter-wave plate structure for introducing a phase delay, said quarter-wave plate structure having a first window and a second window, said first window being aligned with the output of said first fiber-optic conductor for producing a first polarized-modulated optical beam and the second window being aligned with the second fiber-optic conductor for producing a second polarized modulated beam. - View Dependent Claims (2, 3, 4, 5)
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Specification
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- Resources
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Current AssigneeSunshine Medical Instruments, Inc.
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Original AssigneeSunshine Medical Instruments, Inc.
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InventorsKupershmidt, Vladimir
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Primary Examiner(s)Lee, John D.
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Application NumberUS08/406,736Time in Patent Office918 DaysField of Search385/1-3, 385/8, 385/9, 385/11, 385/39, 385/45, 385/50US Class Current385/1CPC Class CodesA61B 5/14558 by polarisationG01N 21/21 Polarisation-affecting prop...
