Short-wave infrared super-continuum lasers for natural gas leak detection, exploration, and other active remote sensing applications
First Claim
1. A measurement system comprising:
- a light source configured to generate an output optical beam, comprising;
a plurality of semiconductor sources configured to generate an input optical beam;
a multiplexer configured to receive at least a portion of the input optical beam and to form an intermediate optical beam;
one or more fibers configured to receive at least a portion of the intermediate optical beam and to form the output optical beam;
wherein at least a portion of the one or more fibers comprises a fused silica fiber having a core diameter less than 400 microns;
wherein the output optical beam comprises one or more optical wavelengths, at least a portion of which are between 700 nanometers and 2500 nanometers; and
wherein the output optical beam has a bandwidth of at least 10 nanometers;
a measurement apparatus configured to receive a received portion of the output optical beam and to deliver a delivered portion of the output optical beam to a sample, wherein the delivered portion of the output optical beam is configured to generate a spectroscopy output beam from the sample; and
a receiver configured to receive at least a portion of the spectroscopy output beam having a bandwidth of at least 10 nanometers and to process the at least a portion of the spectroscopy output beam to generate an output signal;
wherein the light source and the receiver are remote from the sample, wherein the sample comprises plastics or food industry goods, and wherein the measurement system performs non-destructive quality control or constitutive analysis.
0 Assignments
0 Petitions
Accused Products
Abstract
A measurement system performs non-destructive quality control or constitutive analysis using a light source generating an output optical beam using semiconductor sources that generate an input optical beam, a multiplexer configured to receive the input beam and to form an intermediate optical beam, and fibers configured to receive the intermediate beam and to form the output beam. The fibers include a fused silica fiber having a core diameter less than 400 microns. The output beam includes wavelengths between 700 and 2500 nanometers and has a bandwidth of at least 10 nanometers. The system includes a measurement apparatus that receives the output beam and delivers the beam to a sample to generate a spectroscopy beam. A receiver is configured to receive the spectroscopy beam and process the beam to generate an output signal. The light source and receiver are remote from the sample, which includes plastics or food industry goods.
181 Citations
17 Claims
-
1. A measurement system comprising:
-
a light source configured to generate an output optical beam, comprising; a plurality of semiconductor sources configured to generate an input optical beam; a multiplexer configured to receive at least a portion of the input optical beam and to form an intermediate optical beam; one or more fibers configured to receive at least a portion of the intermediate optical beam and to form the output optical beam; wherein at least a portion of the one or more fibers comprises a fused silica fiber having a core diameter less than 400 microns; wherein the output optical beam comprises one or more optical wavelengths, at least a portion of which are between 700 nanometers and 2500 nanometers; and wherein the output optical beam has a bandwidth of at least 10 nanometers; a measurement apparatus configured to receive a received portion of the output optical beam and to deliver a delivered portion of the output optical beam to a sample, wherein the delivered portion of the output optical beam is configured to generate a spectroscopy output beam from the sample; and a receiver configured to receive at least a portion of the spectroscopy output beam having a bandwidth of at least 10 nanometers and to process the at least a portion of the spectroscopy output beam to generate an output signal; wherein the light source and the receiver are remote from the sample, wherein the sample comprises plastics or food industry goods, and wherein the measurement system performs non-destructive quality control or constitutive analysis. - View Dependent Claims (2, 3, 4, 5, 13)
-
-
6. A measurement system comprising:
-
a light source configured to generate an output optical beam, comprising; a plurality of semiconductor sources configured to generate an input optical beam; a multiplexer configured to receive at least a portion of the input optical beam and to form an intermediate optical beam; one or more fibers configured to receive at least a portion of the intermediate optical beam and to form the output optical beam; wherein at least a portion of the one or more fibers comprises a fused silica fiber having a core diameter less than 400 microns; wherein the output optical beam comprises one or more optical wavelengths, at least a portion of which are between 700 nanometers and 2500 nanometers; and wherein the output optical beam has a bandwidth of at least 10 nanometers; a measurement apparatus configured to receive a received portion of the output optical beam and to deliver a delivered portion of the output optical beam to a sample, wherein the delivered portion of the output optical beam is configured to generate a spectroscopy output beam from the sample; and a receiver configured to receive at least a portion of the spectroscopy output beam having a bandwidth of at least 10 nanometers and to process the at least a portion of the spectroscopy output beam to generate an output signal; wherein the output signal is based on a chemical composition of the sample; wherein the spectroscopy output beam comprises spectral features of hydrocarbons or organic compounds; and wherein the light source and the receiver are remote from the sample, and wherein the sample comprises plastics or food industry goods. - View Dependent Claims (7, 8, 9, 10, 11, 12, 14)
-
-
15. A method of measuring, comprising:
-
generating an output optical beam, comprising; generating an input optical beam from a plurality of semiconductor sources; multiplexing at least a portion of the input optical beam and forming an intermediate optical beam; and guiding at least a portion of the intermediate optical beam using one or more fibers including a fused silica fiber having a core diameter less than 400 microns; and broadening a spectrum of at least a portion of the intermediate optical beam to at least 10 nanometers to form the output optical beam with an output beam broadened spectrum, wherein the output optical beam comprises one or more optical wavelengths between 700 nanometers and 2500 nanometers; receiving a received portion of the output optical beam and delivering a delivered portion of the output optical beam to a sample comprising plastics or food industry goods located remotely from the generated output optical beam; generating a spectroscopy output beam having a bandwidth of at least 10 nanometers from the sample, wherein the spectroscopy output beam comprises spectral features based on a chemical composition of the sample; receiving at least a portion of the spectroscopy output beam; and processing the at least a portion of the spectroscopy output beam and generating an output signal; wherein the measuring method is used for non-destructive quality control or constitutive analysis. - View Dependent Claims (16, 17)
-
Specification