Terahertz frequency domain spectrometer with integrated dual laser module
First Claim
1. A laser module comprising:
- a housing;
a first laser assembly disposed in said housing including a first laser for generating a first laser beam;
a second laser assembly disposed in said housing including a second laser for generating a second laser beam;
a beam splitter disposed in said housing in the path of said first and second beams for combining said beams into third and fourth optical beams;
a second beam splitter disposed in said housing in the path of said third beam and producing fifth and sixth beams; and
a first window in said housing in the path of said fifth beam for permitting said fifth beam to exit the housing.
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Accused Products
Abstract
An apparatus for analyzing, identifying or imaging a target including an integrated dual laser module coupled to a pair of photoconductive switches to produce CW signals in the range of frequencies from 100 GHz to over 2 THz focused on and transmitted through or reflected from the target; and a detector for acquiring spectral information from signals received from the target and using a multi-spectral homodyne process to generate an electrical signal representative of some characteristics of the target with resolution less than 250 MHz. The photoconductive switches are activated by laser beams from the dual laser module. The lasers in the module are tuned to different frequencies and have two distinct low frequency identification tones respectively that are used in conjunction with a stable optical filter element to permit precise determination of the offset frequency of the lasers.
34 Citations
17 Claims
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1. A laser module comprising:
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a housing; a first laser assembly disposed in said housing including a first laser for generating a first laser beam; a second laser assembly disposed in said housing including a second laser for generating a second laser beam; a beam splitter disposed in said housing in the path of said first and second beams for combining said beams into third and fourth optical beams; a second beam splitter disposed in said housing in the path of said third beam and producing fifth and sixth beams; and a first window in said housing in the path of said fifth beam for permitting said fifth beam to exit the housing. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8)
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9. An apparatus for analyzing, identifying or imaging a target, comprising:
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an integrated laser module including first and second laser, said integrated laser module comprising; a housing; a first laser assembly disposed in said housing including the first laser for generating a first laser beam; a second laser assembly disposed in said housing including the second laser for generating a second laser beam; a beam splitter disposed in said housing in the path of said first and second laser beams for combining said first and second laser beams into first and second composite optical beams; a second beam splitter disposed in said housing in the path of the first composite optical beam and producing third and fourth optical beams; and a first window in said housing in the path of said third optical beam for permitting said third optical beam to exit the housing; a source of CW signals in the range of frequencies from 100 GHz to over 2 THz including a first photoconductive switch activated by said third optical beam; directing means for causing said signals to be substantially simultaneously focused on or through said target; and a detector for acquiring spectral information reflected from said target and coupled to said second composite optical beam for generating an electrical signal representative of some characteristic of the target. - View Dependent Claims (10, 11, 12, 13, 14)
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15. A laser module comprising:
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a first laser assembly including a first laser for generating a first laser beam; a second laser assembly including a second laser for generating a second laser beam; a first tone generator for applying a first low frequency tone to the first laser; a second tone generator for applying a second low frequency tone, different from said first tone, to the second laser; a first beam splitter for combining the output of said first and second lasers to generate first and second combined beams; a beam splitter assembly comprising second and third beam splitters respectively disposed in the paths of said first and second combined beams for respectively splitting said first and second combined beams into third and fourth combined optical beams; first and second photodiodes in the path of said third and fourth combined optical beams respectively, and each photodiode having a respective output; and a processor for comparing the respective outputs of said first and second photodiodes for computing the wavelength of said first and second lasers.
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16. A method for determining the respective wavelengths of the frequency sources in a multi-frequency composite optical beam comprising:
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applying a first low frequency tone to the first laser; applying a second low frequency tone, different from said first tone, to the second laser; combining the beams from said first and second lasers to generate first and second combined beams; splitting said first combined beam into a third combined optical beam; splitting said second combined beam into a fourth combined optical beam; detecting the power of said third combined optical beam using a first photodiode having a first spectral response; detecting the power of said fourth combined optical beam using a second photodiode having a second spectral response; and comparing the respective outputs of said first and second photodiodes and computing the wavelengths of said first and second lasers. - View Dependent Claims (17)
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Specification