Holographic grating spectrum analyzer

US 6,839,136 B2
Filed: 10/19/2001
Issued: 01/04/2005
Est. Priority Date: 02/01/2000
Status: Expired due to Fees

First Claim

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1. An optical spectrum sensitive instrument comprising:

a plane grating having an aperture therethrough at a predetermined location;

a parabolic reflector positioned with its axis passing at least near said aperture;

a light conductor assembly injecting light of multiwavelength spectral content through said aperture toward said reflector for reflection toward said plane grating whereby the spectral content of said injected light is spread and redirected toward said parabolic reflector for reflection back toward said aperture with a spectral portion returned back through said aperture and into said light conductor assembly;

a positioner coupled to said plane grating and controlling in response to an input an angle of said plane grating over a range about an axis that maintains said aperture positioned to pass said injected and returning light; and

a calibrator automatically and continuously calibrating the instrument by detecting a predetermined spectral content in light returned back through said aperture, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.

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Abstract

A spectrum analyzer providing an integrated calibration function and for providing that calibration function automatically. The injection of light to be analyzed through a central aperture of a scanning grating onto a focusing reflector provides in combination four traversals of the space therebetween. The spectrometer thus is used to separate wavelength information spacially and receive it back at the same or adjacent aperture(s) to be analyzed by a processing system to establish the spectra for the incident light. The light is typically injected from and received back into optical fibers or other light carrying elements. Calibration light is also applied through the same or adjacent apertures in the grating from a known source and spectra such as Argon to use as a calibration reference by detecting the known spectra peaks and correlating it to grating scan angle. The same structure is also used as a telecommunications channel router by injecting light of multi-channel and thus broadband spectral content into the spectrometer through the central aperture(s) and angling the grating so that a selected channel or channels are reflected back after four passages of the spectral separator to output one or more optical fibers or other guides.

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26 Claims

1. An optical spectrum sensitive instrument comprising:
- a plane grating having an aperture therethrough at a predetermined location;
  
  a parabolic reflector positioned with its axis passing at least near said aperture;
  
  a light conductor assembly injecting light of multiwavelength spectral content through said aperture toward said reflector for reflection toward said plane grating whereby the spectral content of said injected light is spread and redirected toward said parabolic reflector for reflection back toward said aperture with a spectral portion returned back through said aperture and into said light conductor assembly;
  
  a positioner coupled to said plane grating and controlling in response to an input an angle of said plane grating over a range about an axis that maintains said aperture positioned to pass said injected and returning light; and
  
  a calibrator automatically and continuously calibrating the instrument by detecting a predetermined spectral content in light returned back through said aperture, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
- - 2. The instrument of claim 1 wherein said plane grating has a first order mode at 1500 nm and a second order mode at 750 nm.
  - 3. The instrument of claim 2 wherein the predetermined spectral content is Argon radiation spectra.
  - 4. The instrument of claim 1 wherein said parabolic reflector is positioned with the plane grating aperture at least near the focus point of said parabolic reflector whereby radiation injected through said aperture is returned by reflection by said parabolic reflector to said grating as substantially collimated light and said plane grating redirects said collimated light back toward said parabolic reflector as substantially collimated light at angles corresponding to wavelength of said light so that collimated light of a unique wavelength is reflected by said parabolic reflector back toward said aperture.
  - 5. The instrument of claim 1 further including a multichannel optical waveguide having a termination for the injection and reception of light proximate to said aperture.
  - 6. The instrument of claim 1 further including a housing for said grating and parabolic reflector, with said housing, reflector and grating of low coefficient of thermal expansion material.
  - 7. The instrument of claim 1 further including a sealed fiber optic assembly having a termination approximate said aperture.
  - 8. The instrument of claim 1 further including plurality of calibration radiation interfaces adjacent a central location of said aperture for emitting radiation having the predetermined spectral content to said parabolic reflector and receiving radiation from said parabolic reflector to thereby detect the predetermined spectral content by the calibrator.
  - 9. The instrument of claim 1 further comprising a controller for the positioner and responsive to an input for positioning said plane grating at an angle to redirect light having the predetermined spectral content injected through said aperture back to said aperture.
  - 10. The instrument of claim 9 wherein said injected light is multi-channel telecommunications signals with telecommunications channels separated by wavelength and said controller operates in response to said signal to select channel for return to said aperture.

11. An optical spectrum sensitive instrument comprising:
- a grating having an aperture therethrough at a predetermined location;
  
  a focussing reflector positioned with its axis passing at least near said aperture, said aperture being adapted for a light conductor assembly to inject light of multiwavelength spectral content through said aperture toward said reflector for reflection toward said plane grating whereby the spectral content of said injected light is spread and redirected toward said reflector for reflection back toward said aperture with a selected spectral portion returned back through said aperture and into said light conductor assembly;
  
  a positioner coupled to said grating and controlling in response to an input an angle of said grating over a range about an axis that maintains said hole positioned to pass said injected and returning light; and
  
  a calibrator automatically and continuously calibrating the instrument by detecting a predetermined spectral content in light returned back through said aperture, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.
- View Dependent Claims (12, 13, 14, 15, 16, 17, 18, 19, 20)
- - 12. The instrument of claim 11 wherein said grating has a first order mode at 1500 nm and a second order mode at 750 nm.
  - 13. The instrument of claim 12, wherein the predetermined spectral content is Argon radiation spectra.
  - 14. The instrument of claim 11 wherein said reflector is positioned with the grating aperture at least near a focus point of said reflector whereby radiation injected through said aperture is returned by reflection by said reflector to said grating as substantially collimated light and said plane grating redirects said collimated light back toward said reflector as substantially collimated light at angles corresponding to wavelength of said light so that collimated light of a unique wavelength is reflected by said reflector back toward said aperture.
  - 15. The instrument of claim 11 further including a multichannel optical waveguide having a termination for the injection and reception of light proximate to said aperture.
  - 16. The instrument of claim 11 further including a housing for said grating and reflector, with said housing, reflector and grating being of low coefficient of thermal expansion material.
  - 17. The instrument of claim 11 further including a sealed fiber optic assembly having a termination approximate said aperture.
  - 18. The instrument of claim 11 further including a plurality of calibration radiation interfaces adjacent a central location of said aperture for emitting radiation having the predetermined spectral content to said reflector and receiving radiation from said reflector to thereby detect the predetermined spectral content by the calibrator.
  - 19. The instrument of claim 11 further comprising a controller for the positioner and responsive to an input for positioning said grating at an angle to redirect light having the predetermined spectral content injected through said aperture back to said aperture.
  - 20. The instrument of claim 19 wherein said injected light is multi-channel telecommunications signals with telecommunications channels separated by wavelength and said controller operates in response to said signal to select a channel for return to said aperture.

21. An optical spectrum sensitive instrument comprising:
- a plane grating having an aperture therethrough at a predetermined location;
  
  a parabolic reflector positioned with its axis passing at least near said aperture;
  
  a light conductor assembly injecting light of multiwavelength spectral content through said aperture toward said reflector for reflection toward said plane grating whereby the spectral content of said injected light is spread and redirected toward said parabolic reflector for reflection back toward said aperture with a spectral portion returned back through said aperture and into said light conductor assembly;
  
  a positioner coupled to said plane grating and controlling in response to an input an angle of said plane grating over a range about an axis that maintains said aperture positioned to pass said injected and returning light; and
  
  a controller for the positioner and responsive to an input for positioning said plane grating at an angle to redirect a predetermined spectral range injected through said aperture back to said aperture, wherein said injected light is multi-channel telecommunications signals with telecommunications channels separated by wavelength and said controller operates in response to said signal to select channel for return to said aperture.

22. An optical spectrum sensitive instrument comprising:
- a grating having an aperture therethrough at a predetermined location;
  
  a focussing reflector positioned with its axis passing at least near said aperture, said aperture being adapted for a light conductor assembly to inject light of multiwavelength spectral content through said aperture toward said reflector for reflection toward said plane grating whereby the spectral content of said injected light is spread and redirected toward said reflector for reflection back toward said aperture with a selected spectral portion returned back through said aperture and into said light conductor assembly;
  
  a positioner coupled to said grating and controlling in response to an input an angle of said grating over a range about an axis that maintains said hole positioned to pass said injected and returning light; and
  
  a controller for the positioner and responsive to an input for positioning said grating at an angle to redirect a predetermined spectral range injected through said aperture back to said aperture, wherein said injected light is multi-channel telecommunications signals with telecommunications channels separated by wavelength and said controller operates in response to said signal to select a channel for return to said aperture.

23. An optical spectrum sensitive instrument comprising:
- a plane grating having an aperture therethrough;
  
  a parabolic reflector, the plane grating being positioned with respect to the reflector so that light injected through the aperture is reflected by the reflector and thereby returned back through the aperture; and
  
  a calibrator automatically and continuously calibrating the instrument by detecting a predetermined spectral content in light returned back through the aperture, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.

24. An optical spectrum sensitive instrument comprising:
- a plane grating having an aperture therethrough;
  
  a parabolic reflector, the plane grating being positioned with respect to the reflector so that light injected through the aperture is reflected by the reflector and thereby returned back through the aperture; and
  
  means for automatically and continuously calibrating the instrument by detecting a predetermined spectral content in light returned back through the aperture, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.

25. An optical spectrum sensitive instrument comprising:
- a plane grating having an aperture therethrough;
  
  a parabolic reflector, the plane grating being positioned with respect to the reflector so that both a first light having a multiwavelength spectral content and a second light having a predetermined spectral content injected through the aperture are reflected by the reflector and thereby returned back through the aperture; and
  
  a calibrator automatically and continuously calibrating the instrument by detecting the predetermined spectral content in the returned second light, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.

26. An optical spectrum sensitive instrument comprising:
- a plane grating having an aperture therethrough;
  
  a parabolic reflector, the plane grating being positioned with respect to the reflector so that both a first light having a multiwavelength spectral content and a second light having a predetermined spectral content injected through the aperture are reflected by the reflector and thereby returned back through the aperture; and
  
  means for automatically and continuously calibrating the instrument by detecting the predetermined spectral content in the returned second light, and adjusting the angle of the plane grating in accordance with the detected predetermined spectral content.

Specification

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Current Assignee
Headwall Photonics, Inc.
Original Assignee
Agilent Technologies, Inc.
Inventors
Mikes, Thomas L.
Primary Examiner(s)
Evans, F. L.

Application Number

US10/011,236
Publication Number

US 20020126280A1
Time in Patent Office

1,173 Days
Field of Search

356/305, 356/326, 356/328, 356/334
US Class Current

356/328
CPC Class Codes

G01J 2003/2866   Markers; Calibrating of scan

G01J 3/02   Details

G01J 3/0208   using focussing or collimat...

G01J 3/0218   using optical fibers

G01J 3/1804   Plane gratings

G01J 3/1838   Holographic gratings

G01J 3/28   Investigating the spectrum ...

G02B 6/2931   Diffractive element operati...

G02B 6/29314   by moving or modifying the ...

G02B 6/29395   configurable, e.g. tunable ...

G02B 6/29398   Temperature insensitivity

Holographic grating spectrum analyzer

First Claim

2 Assignments

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Abstract

Citations

26 Claims

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Holographic grating spectrum analyzer

First Claim

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Abstract

Citations

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Specification

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