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  1. B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
    [CrossRef]
  2. R. C. Alferness, R. V. Schmidt, “Tunable Optical Waveguide Directional Coupler Filter,” Appl. Phys. Lett. 33, 161 (1978).
    [CrossRef]
  3. A. Mahapatra, J. M. Connors, “Double-Tapped Ring Resonators Fabricated in Glass,” in Technical Digest, Optical Fiber Communication/International Integrated Optics and Optical Fiber Communication Conference (Optical Society of America, Washington, DC, 1987), paper TUK3.
  4. D. Marcuse, “Directional Couplers Made of Nonidentical Asymmetric Slabs. Part I: Synchronous Couplers,” IEEE/OSA J. Lightwave Technol. LT-5, 113 (1987).
    [CrossRef]
  5. S. I. Najafi, “GaAs Directional Coupler Devices: Design Considerations,” Appl. Opt. 26, 4593 (1987).
    [CrossRef] [PubMed]
  6. G. H. Chartier, P. Collier, A. Guez, P. Jaussaud, Y. Won, “Graded-Index Surface and Buried Waveguides by Ion Exchange in Glass,” Appl. Opt. 19, 1092 (1980).
    [CrossRef] [PubMed]
  7. S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.
  8. S. I. Najafi, “Glass Waveguide Devices: Uses and Performance Limitations,” in Technical Digest, Optical Fiber Communications Conference (Optical Society of America, Washington, DC, 1988), paper WQ4.
  9. S. I. Najafi, P. Suchaski, V. Ramaswamy, “Silver Film Diffused Glass Waveguides: Diffusion Process and Optical Properties,” IEEE J. Quantum Electron. QE-22, 2213 (1986).
    [CrossRef]
  10. W. K. Burns, A. F. Milton, “Mode Conversion in Planar-Dielectric Separating Waveguides,” IEEE J. Quantum Electron. QE-11, 32 (1975).
    [CrossRef]

1987 (2)

D. Marcuse, “Directional Couplers Made of Nonidentical Asymmetric Slabs. Part I: Synchronous Couplers,” IEEE/OSA J. Lightwave Technol. LT-5, 113 (1987).
[CrossRef]

S. I. Najafi, “GaAs Directional Coupler Devices: Design Considerations,” Appl. Opt. 26, 4593 (1987).
[CrossRef] [PubMed]

1986 (2)

B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
[CrossRef]

S. I. Najafi, P. Suchaski, V. Ramaswamy, “Silver Film Diffused Glass Waveguides: Diffusion Process and Optical Properties,” IEEE J. Quantum Electron. QE-22, 2213 (1986).
[CrossRef]

1980 (1)

1978 (1)

R. C. Alferness, R. V. Schmidt, “Tunable Optical Waveguide Directional Coupler Filter,” Appl. Phys. Lett. 33, 161 (1978).
[CrossRef]

1975 (1)

W. K. Burns, A. F. Milton, “Mode Conversion in Planar-Dielectric Separating Waveguides,” IEEE J. Quantum Electron. QE-11, 32 (1975).
[CrossRef]

Alferness, R. C.

R. C. Alferness, R. V. Schmidt, “Tunable Optical Waveguide Directional Coupler Filter,” Appl. Phys. Lett. 33, 161 (1978).
[CrossRef]

Blaha, F.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

Broberg, B.

B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
[CrossRef]

Burns, W. K.

W. K. Burns, A. F. Milton, “Mode Conversion in Planar-Dielectric Separating Waveguides,” IEEE J. Quantum Electron. QE-11, 32 (1975).
[CrossRef]

Champagne, A.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

Chartier, G. H.

Collier, P.

Connors, J. M.

A. Mahapatra, J. M. Connors, “Double-Tapped Ring Resonators Fabricated in Glass,” in Technical Digest, Optical Fiber Communication/International Integrated Optics and Optical Fiber Communication Conference (Optical Society of America, Washington, DC, 1987), paper TUK3.

Guez, A.

Jaussaud, P.

Jiang, H.

B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
[CrossRef]

Lapierre, J.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

Lindgren, B. S.

B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
[CrossRef]

Maciejko, R.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

Mahapatra, A.

A. Mahapatra, J. M. Connors, “Double-Tapped Ring Resonators Fabricated in Glass,” in Technical Digest, Optical Fiber Communication/International Integrated Optics and Optical Fiber Communication Conference (Optical Society of America, Washington, DC, 1987), paper TUK3.

Marcuse, D.

D. Marcuse, “Directional Couplers Made of Nonidentical Asymmetric Slabs. Part I: Synchronous Couplers,” IEEE/OSA J. Lightwave Technol. LT-5, 113 (1987).
[CrossRef]

Milton, A. F.

W. K. Burns, A. F. Milton, “Mode Conversion in Planar-Dielectric Separating Waveguides,” IEEE J. Quantum Electron. QE-11, 32 (1975).
[CrossRef]

Najafi, S. I.

S. I. Najafi, “GaAs Directional Coupler Devices: Design Considerations,” Appl. Opt. 26, 4593 (1987).
[CrossRef] [PubMed]

S. I. Najafi, P. Suchaski, V. Ramaswamy, “Silver Film Diffused Glass Waveguides: Diffusion Process and Optical Properties,” IEEE J. Quantum Electron. QE-22, 2213 (1986).
[CrossRef]

S. I. Najafi, “Glass Waveguide Devices: Uses and Performance Limitations,” in Technical Digest, Optical Fiber Communications Conference (Optical Society of America, Washington, DC, 1988), paper WQ4.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

Oberg, M. G.

B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
[CrossRef]

Ramaswamy, V.

S. I. Najafi, P. Suchaski, V. Ramaswamy, “Silver Film Diffused Glass Waveguides: Diffusion Process and Optical Properties,” IEEE J. Quantum Electron. QE-22, 2213 (1986).
[CrossRef]

Schmidt, R. V.

R. C. Alferness, R. V. Schmidt, “Tunable Optical Waveguide Directional Coupler Filter,” Appl. Phys. Lett. 33, 161 (1978).
[CrossRef]

Seguin, F.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

Suchaski, P.

S. I. Najafi, P. Suchaski, V. Ramaswamy, “Silver Film Diffused Glass Waveguides: Diffusion Process and Optical Properties,” IEEE J. Quantum Electron. QE-22, 2213 (1986).
[CrossRef]

Won, Y.

Appl. Opt. (2)

Appl. Phys. Lett. (1)

R. C. Alferness, R. V. Schmidt, “Tunable Optical Waveguide Directional Coupler Filter,” Appl. Phys. Lett. 33, 161 (1978).
[CrossRef]

IEEE J. Quantum Electron. (2)

S. I. Najafi, P. Suchaski, V. Ramaswamy, “Silver Film Diffused Glass Waveguides: Diffusion Process and Optical Properties,” IEEE J. Quantum Electron. QE-22, 2213 (1986).
[CrossRef]

W. K. Burns, A. F. Milton, “Mode Conversion in Planar-Dielectric Separating Waveguides,” IEEE J. Quantum Electron. QE-11, 32 (1975).
[CrossRef]

IEEE/OSA J. Lightwave Technol. (2)

B. Broberg, B. S. Lindgren, M. G. Oberg, H. Jiang, “A Novel Integrated Optics Wavelength Filter in InGaAsP-InP,” IEEE/OSA J. Lightwave Technol. LT-4, 196 (1986).
[CrossRef]

D. Marcuse, “Directional Couplers Made of Nonidentical Asymmetric Slabs. Part I: Synchronous Couplers,” IEEE/OSA J. Lightwave Technol. LT-5, 113 (1987).
[CrossRef]

Other (3)

A. Mahapatra, J. M. Connors, “Double-Tapped Ring Resonators Fabricated in Glass,” in Technical Digest, Optical Fiber Communication/International Integrated Optics and Optical Fiber Communication Conference (Optical Society of America, Washington, DC, 1987), paper TUK3.

S. I. Najafi, J. Lapierre, R. Maciejko, F. Seguin, A. Champagne, F. Blaha, “Modal and Diffusion Characterization of K+–Na+ Exchanged Glass Waveguides,” in Technical Digest, 14th Congress of the International Commission for Optics (Proceedings SPIE, 813, 1987), paper A17.1.

S. I. Najafi, “Glass Waveguide Devices: Uses and Performance Limitations,” in Technical Digest, Optical Fiber Communications Conference (Optical Society of America, Washington, DC, 1988), paper WQ4.

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Figures (2)

Fig. 1
Fig. 1

Schematic of a directional coupler wavelength filter.

Fig. 2
Fig. 2

Variation of the power coupled to the second branch (after one coupling length) with wavelength for the directional couplers of Table I. Light is initially coupled in the first branch and the devices are designed to have complete power transfer from one branch to the other at the center wavelengths, (a) 1.1 μm, (b) 1.3 μm, (c) 1.5 μm.

Tables (1)

Tables Icon

Table I Device Parameters for the Wavelength Filters Analyzed in this Paper; see Fig. 1 for Notation

Equations (4)

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ε ( x , y ) = { A I exp ( k I x ) , region I A II cos ( k II x ) + B II ( k II x ) , region II A III exp [ k III ( x d II ) ] + B III exp [ k III ( x d II ) ] , region III A IV cos [ k IV ( x d II d III ) ] + B IV sin [ k IV ( x d II d III ) ] , region IV A V exp [ k V ( x d II d III d IV ) ] , region V
k i 2 = k 0 2 ( N 2 n i 2 ) , i = I , III , V , k i 2 = k 0 2 ( n i 2 N 2 ) , i = II , IV ,
E y ( x , y ) = A e ε e ( x , y ) exp [ i ( β e z + ϕ e ) ] + A o ε o ( x , y ) exp [ i ( β o z + ϕ o ) ] ,
CL = | π β e β o | .

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