Method and apparatus for improved signal to noise ratio in Raman signal detection for MEMS based spectrometers
First Claim
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1. A method of Raman detection, comprising:
- directing an input optical beam incident upon a sample to be measured that is contained within a portable, integrated spectrometer instrument, said input optical beam being modulated at a heterodyne frequency;
directing scattered photons by said sample through receiving optics so as to filter Rayleigh scattered photons and pass Raman scattered photons through a tunable filter, said receiving optics and said tunable filter being contained within the portable, integrated spectrometer instrument; and
detecting said passed Raman scattered photons at a wavelength passed by said tunable filter through demodulation at said heterodyne frequency, wherein said passed Raman scattered photons are detected using photon counting using an avalanche photodiode (APD) operating in a sub-Geiger mode.
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Abstract
A method of Raman detection for a portable, integrated spectrometer instrument includes directing Raman scattered photons by a sample to an avalanche photodiode (APD), the APD configured to generate an output signal responsive to the intensity of the Raman scattered photons incident thereon. The output signal of the APD is amplified and passed through a discriminator so as to reject at least one or more of amplifier noise and dark noise. A number of discrete output pulses within a set operational range of the discriminator is counted so as to determine a number of photons detected by the APD.
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Citations
8 Claims
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1. A method of Raman detection, comprising:
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directing an input optical beam incident upon a sample to be measured that is contained within a portable, integrated spectrometer instrument, said input optical beam being modulated at a heterodyne frequency; directing scattered photons by said sample through receiving optics so as to filter Rayleigh scattered photons and pass Raman scattered photons through a tunable filter, said receiving optics and said tunable filter being contained within the portable, integrated spectrometer instrument; and detecting said passed Raman scattered photons at a wavelength passed by said tunable filter through demodulation at said heterodyne frequency, wherein said passed Raman scattered photons are detected using photon counting using an avalanche photodiode (APD) operating in a sub-Geiger mode. - View Dependent Claims (2, 3, 4)
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5. An apparatus for Raman, comprising:
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a portable, integrated spectrometer instrument, comprising; an optical source for directing an input optical beam incident upon a sample to be measured; a beam-interrupting mechanism configured to modulate said input optical beam at a heterodyne frequency; receiving optics configured to collect photons scattered by said sample so as to filter Rayleigh scattered photons and pass Raman scattered photons though a tunable filter; and a photon detector configured to detect said passed Raman scattered photons at a wavelength passed by said tunable filter though demodulation at said heterodyne frequency, wherein said passed Raman scattered photons are detected using photon counting, implemented using an avalanche photodiode (APD) operating in sub-Geiger mode. - View Dependent Claims (6, 7, 8)
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Specification