Optical switch having a reflective component

US 7,151,868 B1
Filed: 09/29/2003
Issued: 12/19/2006
Est. Priority Date: 10/15/2002
Status: Active Grant

First Claim

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1. A method of redirecting optical signals within an optical switch, the optical switch including first and second waveguides disposed on a substrate, the first and second waveguides intersecting at an angle to form an intersection region, the method comprising:

introducing a first optical signal into a first end of the first waveguide;

maintaining a diverting element located at the intersection region in an inactive state such that the first optical signal passes through the intersection region and remains in the first waveguide; and

reflecting the first optical signal at a second end of the first waveguide such that the first optical signal is redirected along the first waveguide and exits the optical switch via the first end of the first waveguide.

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Abstract

A reflective optical switch for use in optical systems, such as fiber optic communications networks, is disclosed. The optical switch includes not only signal transmission characteristics, but also signal reflection capability. The optical switch includes a semiconductor substrate having first and second optical signal waveguides disposed thereon. The two waveguides intersect one another at a selected angle to form an intersection region. A thermal element is disposed atop the intersection region and can be activated to alter the index of refraction of a portion of the intersection region. An optical signal passing through the intersection region is diverted from one waveguide to another according to the heating of the intersection region by the thermal element. A reflective component disposed in a terminal end of one of the waveguides reflects selected optical signals back to the source from which they came.

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23 Claims

1. A method of redirecting optical signals within an optical switch, the optical switch including first and second waveguides disposed on a substrate, the first and second waveguides intersecting at an angle to form an intersection region, the method comprising:
- introducing a first optical signal into a first end of the first waveguide;
  
  maintaining a diverting element located at the intersection region in an inactive state such that the first optical signal passes through the intersection region and remains in the first waveguide; and
  
  reflecting the first optical signal at a second end of the first waveguide such that the first optical signal is redirected along the first waveguide and exits the optical switch via the first end of the first waveguide.
- View Dependent Claims (2, 3, 4)
- - 2. A method of redirecting optical signals as defined in claim 1, further comprising:
    - introducing a second optical signal into the first end of the first waveguide; and
      
      activating the diverting element such that a predetermined portion of the second optical signal is redirected from the first waveguide to the second waveguide at the intersection region.
  - 3. A method of redirecting optical signals as defined in claim 2, further comprising:
    - passing the predetermined portion of the second optical signal through an end of the second waveguide such that it exits the optical switch.
  - 4. A method of redirecting optical signals as defined in claim 2, wherein activating the diverting element further comprises:
    - activating the diverting element such that the index of refraction at the intersection region is altered.

5. A communications system including a plurality of optical switches, each optical switch comprising:
- a substrate;
  
  a first waveguide disposed on the substrate, the first waveguide capable of carrying an optical signal;
  
  a second waveguide disposed on the substrate, the second waveguide capable of carrying the optical signal, the second waveguide intersecting the first waveguide at an angle to define an intersection region;
  
  a diverting element, wherein the diverting element in an activated state can alter the index of refraction of the portion of the intersection region such that a predetermined portion of the optical signal in one of said waveguides is diverted at the intersection region from one of said waveguides to the other waveguide; and
  
  a reflective element disposed at a terminal end of the first waveguide, wherein the reflective element reflects optical signals incident on the reflective element back along the first waveguide.
- View Dependent Claims (6, 7, 8, 9, 10, 11, 12)
- - 6. A communications system as defined in claim 5, wherein the diverting element diverts the predetermined portion of the optical signal from the first waveguide to the second waveguide, and wherein the diverting element passes a remainder portion of the optical signal along the first waveguide.
  - 7. A communications system as defined in claim 5, wherein the entirety of the optical signal is diverted at the intersection region from one of said waveguides to the other waveguide.
  - 8. A communications system as defined in claim 5, wherein the diverting element comprises an electrode heater.
  - 9. A communications system as defined in claim 5, wherein a cladding material is interposed between the intersection region of the waveguides and the diverting element.
  - 10. A communications system as defined in claim 5, wherein the diverting element includes a liquid crystal structure located at the intersection region, the liquid crystal structure having a refractive index that can be modified by applying a voltage to a conductive electrode attached to the liquid crystal structure.
  - 11. A communications system as defined in claim 5, wherein the diverting element includes a semiconductor superlattice structure located at the intersection region, the superlattice structure having a refractive index that can be modified by applying a voltage to the superlattice structure.
  - 12. A communications system as defined in claim 5, wherein the amount of diversion of the optical signal from one of said waveguides to the other waveguide is at least partially determined by the extent of modification of the refractive index by the diverting element.

13. An optical switch for use in transmitting an optical signal, the optical switch comprising:
- a first waveguide disposed on a substrate, the first waveguide including an inlet end for receiving the optical signal;
  
  a plurality of secondary waveguides, each secondary waveguide disposed on the substrate and intersecting the first waveguide at an angle to define a plurality of intersection regions;
  
  a diverting element corresponding to each intersection region, each diverting element capable of diverting a predetermined portion of the optical signal from the first waveguide to the respective secondary waveguide; and
  
  a reflective component disposed at a terminal end of at least one of the wave guides, the reflective component operable to reflect optical signals incident upon it.
- View Dependent Claims (14, 15, 16)
- - 14. An optical switch as defined in claim 13, wherein the optical signal that is incident upon the reflective component is reflected toward the inlet end of the first waveguide.
  - 15. An optical switch as defined in claim 13, wherein four secondary waveguides are disposed on the substrate.
  - 16. An optical switch as defined in claim 13, wherein the diverting element is selected from the group consisting of an electrode heater, a liquid crystal structure, and a semiconductor superlattice structure.

17. An optical switch, comprising:
- a semiconductor substrate;
  
  a first waveguide located on the substrate, the first waveguide suitable for carrying an optical signal;
  
  a second waveguide located on the substrate, the second waveguide suitable for carrying an optical signal, the second waveguide intersecting the first waveguide at an angle so as to define an intersection region;
  
  a cladding material disposed atop the first and second waveguides;
  
  an electrode heater disposed atop the cladding material, the electrode heater being located proximate the intersection region, wherein heating of the electrode heater enables an optical signal to be diverted in the intersection region from one of said waveguides to the other waveguide; and
  
  a high reflective coating disposed at a terminal end of the first waveguide, the high reflective coating operable to reflect in the opposite direction an optical signal passing through the first waveguide that is incident on the high reflective coating.
- View Dependent Claims (18, 19, 20, 21, 22, 23)
- - 18. An optical switch as defined in claim 17, wherein the first waveguide, the second waveguide, and the intersection region are configured so as to enable an optical signal to travel either direction along each waveguide.
  - 19. An optical switch as defined in claim 18, wherein the optical signal is introduced into the optical switch via a first end of the first waveguide.
  - 20. An optical switch as defined in claim 19, wherein the second waveguide further comprises an optical signal outlet, wherein optical signals that are redirected at the intersection region exit the optical switch at the optical signal outlet.
  - 21. An optical switch as defined in claim 20, wherein the optical signal that is reflected by the reflective component exists the optical switch at the first end of the first waveguide.
  - 22. An optical switch as defined in claim 21, wherein the electrode heater is located to provide heating to approximately one-half of the intersection region.
  - 23. An optical switch as defined in claim 22, wherein the coating comprises sodium.

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Current Assignee
II-VI Delaware, Inc. (Coherent Corp.)
Original Assignee
Finisar Corporation (II-VI Incorporated)
Inventors
Wang, Steve
Primary Examiner(s)
PAK, SUNG H

Application Number

US10/673,623
Time in Patent Office

1,177 Days
Field of Search

None
US Class Current

385/16
CPC Class Codes

G02B 6/3544   2D constellations, i.e. wit...

G02B 6/356   in an optical cross-connect...

G02B 6/3596   With planar waveguide arran...

G02F 1/0147   based on thermo-optic effec...

G02F 1/313   in an optical waveguide str...

G02F 1/315   based on the use of control...

Optical switch having a reflective component

First Claim

5 Assignments

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Abstract

17 Citations

23 Claims

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Optical switch having a reflective component

First Claim

5 Assignments

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0 Petitions

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Accused Products

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Abstract

17 Citations

23 Claims

Specification

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Solutions

Use Cases

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