Cross-sectional mapping of spectral absorbance features
First Claim
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1. A method for using light of different spectral bands to characterize a sample, comprising:
- combining and guiding optical radiation from a plurality of light sources, each emitting at wavelengths within a spectral band different from others, towards a sample through a common optical waveguide which supports first and second propagation modes that are different from each other;
within the common optical waveguide, reflecting a first portion of the combined radiation away from the sample at its vicinity within the common optical waveguide, without reaching the sample, as a reference beam having different spectral bands in the first propagation mode while directing a second portion of the combined radiation to reach the sample as a sample beam having the different spectral bands in the second propagation mode;
collecting and guiding at least part of the reference beam within the common optical waveguide in the first propagation mode and at least part of the sample beam from the sample within the common optical waveguide in the second propagation mode to co-propagate and overlap with the reference beam towards a detection module through the common optical waveguide without having physically separated optical paths for the reference beam in the first propagation mode and the sample beam in the second propagation mode before reaching the detection module;
at a location between the common optical waveguide and the detection module, controlling a differential delay between the reference beam in the first propagation mode and the sample beam in the second propagation mode before reaching the detection module to measure different locations with different depths within the sample;
inside the detection module, separating combined light of the sample beam in the first optical mode and the reference beam output by the common optical waveguide into different beams of a plurality of different spectral bands; and
inside the detection module, directing light radiation of the different beams of the separated different spectral bands to a plurality of light detectors, respectively, to extract information of the sample.
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Abstract
Designs, implementations, and techniques for optically measuring a sample to obtain spectral absorbance map of the sample. Light at different wavelength bands may be used to detect different absorption features in the sample. Multiple light sources may be used including tunable lasers.
100 Citations
19 Claims
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1. A method for using light of different spectral bands to characterize a sample, comprising:
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combining and guiding optical radiation from a plurality of light sources, each emitting at wavelengths within a spectral band different from others, towards a sample through a common optical waveguide which supports first and second propagation modes that are different from each other; within the common optical waveguide, reflecting a first portion of the combined radiation away from the sample at its vicinity within the common optical waveguide, without reaching the sample, as a reference beam having different spectral bands in the first propagation mode while directing a second portion of the combined radiation to reach the sample as a sample beam having the different spectral bands in the second propagation mode; collecting and guiding at least part of the reference beam within the common optical waveguide in the first propagation mode and at least part of the sample beam from the sample within the common optical waveguide in the second propagation mode to co-propagate and overlap with the reference beam towards a detection module through the common optical waveguide without having physically separated optical paths for the reference beam in the first propagation mode and the sample beam in the second propagation mode before reaching the detection module; at a location between the common optical waveguide and the detection module, controlling a differential delay between the reference beam in the first propagation mode and the sample beam in the second propagation mode before reaching the detection module to measure different locations with different depths within the sample; inside the detection module, separating combined light of the sample beam in the first optical mode and the reference beam output by the common optical waveguide into different beams of a plurality of different spectral bands; and inside the detection module, directing light radiation of the different beams of the separated different spectral bands to a plurality of light detectors, respectively, to extract information of the sample. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. A device for optically measuring a sample, comprising:
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a plurality of light sources emitting light at different wavelength bands centered at different wavelengths; a single waveguide configured to support different first and second propagation modes to receive and guide the light at the different wavelength bands in the first propagation mode; a probe head located near a sample and coupled to the waveguide to receive the light from the waveguide and to reflect a first portion of the light back to the waveguide, without reaching the sample, as a reference beam in the first propagation mode and direct a second portion of the light as a sample beam to the sample, the probe head collecting reflection of the sample beam from the sample and exporting to the waveguide the reflection as a reflected sample beam in the second propagation mode, the waveguide forming a common optical path for the reflected sample beam from the sample and the reference beam to co-propagate and to spatially overlap in the common optical path without having physically separated optical paths for the reference beam in the first propagation mode and the reflected sample beam in the second propagation mode; an optical differential delay unit coupled to receive combined light of the reflected sample beam in the first optical mode and the reference beam output by the common optical waveguide to produce and control a relative delay between the reflected sample beam in the first optical mode and the reference beam received from the single waveguide in response to a control signal; a detection module to receive output light from the optical differential delay unit and to extract information of the sample carried by the reflected sample beam; and a control unit, which produces the control signal to the optical differential delay unit, to set the relative delay at two different bias values to select a layer of material inside the sample to measure an optical absorption of the selected layer at each and every wavelength from the different light sources. - View Dependent Claims (10, 11, 12, 13, 14, 15, 16)
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17. A device for optically measuring a sample, comprising:
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a plurality of tunable laser sources emitting light within different wavelength bands centered at different wavelengths; a single waveguide to receive and guide the light at the different wavelength bands in a first propagation mode; a probe head located near a sample and coupled to the waveguide to receive the light from the waveguide and to reflect a first portion of the light back to the waveguide in the first propagation mode without reaching the sample and direct a second portion of the light to the sample, the probe head collecting reflection of the second portion from the sample and exporting to the waveguide the reflection as a reflected second portion in a second propagation mode different from the first propagation mode, the waveguide forming a common optical path for the reflected second portion from the sample and the reflected first portion to co-propagate and to spatially overlap in the common optical path without having physically separated the reflected first portion and the reflected second portion when propagating in the waveguide; an optical differential delay unit coupled to receive combined light of the reflected second portion from the sample and the reflected first portion output by the common optical waveguide to produce and control a relative delay between the reflected second portion from the sample and the reflected first portion; a detection module coupled to the optical differential delay unit to receive the reflected first portion and the reflected second portion and to extract information of the sample carried by the reflected second portion; and a control unit to tune each tunable laser in a corresponding laser emitting wavelength band to obtain absorption measurements of the sample at different wavelengths within each corresponding wavelength band. - View Dependent Claims (18, 19)
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Specification