Systems and methods using multi-wavelength single-pulse Raman spectroscopy
First Claim
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1. An apparatus for Raman spectra measurement, comprising:
- a Nd YAG laser configured to simultaneously output a single pulse of an unfocused beam of photons in two or more excitation wavelengths selected from 213 nm, 266 nm, 532 nm and 1064 nm onto an sample, said laser output ranging from 1-100 mJ per pulse at 10 Hz;
a dichroic Rayleigh filter stack in optical communication with scattered light from the single pulse of unfocused beam of photons incident on the sample;
a singlet lens in optical communication with the dichroic Rayleigh filter stack to focus the scattered light from the sample and couple the scattered light into a proximal end of a stacked fiberoptic bundle;
a spectrograph equipped with a hybrid diffraction grating attached to a distal end of the stacked fiberoptic bundle, said hybrid diffraction grating comprised of a stack of at least two diffraction surfaces, each diffraction surface configured for blaze density and wavelength for one of the two or more excitation wavelengths, each diffraction surface individually angle-tuned and target-adjusted to disperse the scattered light, wherein the spectrograph is configured to to illuminate all of the at least two diffraction surfaces simultaneously;
an array detector system in optical communication with the spectrograph and configured to receive the dispersed scattered light from each diffraction surface onto a specific target section of an array detector, and output a spectral intensity measurement.
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Abstract
The invention provides methods and apparatus comprising a multi-wavelength laser source that uses a single unfocused pulse of a low intensity but high power laser over a large sample area to collect Raman scattered collimated light, which is then Rayleigh filtered and focused using a singlet lens into a stacked fiber bundle connected to a customized spectrograph, which separates the individual spectra from the scattered wavelengths using a hybrid diffraction grating for collection onto spectra-specific sections of an array photodetector to measure spectral intensity and thereby identify one or more compounds in the sample.
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Citations
17 Claims
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1. An apparatus for Raman spectra measurement, comprising:
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a Nd YAG laser configured to simultaneously output a single pulse of an unfocused beam of photons in two or more excitation wavelengths selected from 213 nm, 266 nm, 532 nm and 1064 nm onto an sample, said laser output ranging from 1-100 mJ per pulse at 10 Hz; a dichroic Rayleigh filter stack in optical communication with scattered light from the single pulse of unfocused beam of photons incident on the sample; a singlet lens in optical communication with the dichroic Rayleigh filter stack to focus the scattered light from the sample and couple the scattered light into a proximal end of a stacked fiberoptic bundle; a spectrograph equipped with a hybrid diffraction grating attached to a distal end of the stacked fiberoptic bundle, said hybrid diffraction grating comprised of a stack of at least two diffraction surfaces, each diffraction surface configured for blaze density and wavelength for one of the two or more excitation wavelengths, each diffraction surface individually angle-tuned and target-adjusted to disperse the scattered light, wherein the spectrograph is configured to to illuminate all of the at least two diffraction surfaces simultaneously; an array detector system in optical communication with the spectrograph and configured to receive the dispersed scattered light from each diffraction surface onto a specific target section of an array detector, and output a spectral intensity measurement. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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Specification