Directional optical waveguide coupler and power tap arrangement
First Claim
1. A directional optical waveguide coupler and power tap capable of coupling core-guided modes propagating in a first direction out of a transmission optical waveguide and avoiding loss of core-guided modes which may be propagating in a second direction, the transmission optical waveguide including a core surrounded by a layer of cladding material having a refractive index which is less than the refractive index of the core material, the directional coupler and power tap comprisinga second optical waveguide comprising a core having a given refractive index surrounded by a layer of cladding material having a refractive index which is less than the refractive index of said second waveguide core material, the core of said second waveguide having a cross-sectional area which is significantly smaller than the cross-sectional area of the core of the transmission waveguide, and one end of said second waveguide being abutted with an end of the transmission waveguide in a manner to permit a significant amount of the core-guided modes propagating in the first direction in the transmission waveguide to be coupled into the cladding layer of said second waveguide at said abutting point and to permit core-guided modes introduced at the other end of said second waveguide and propagating in a second direction in said second waveguide to be coupled primarily into the core of the transmission waveguide at said abutting point, andmeans disposed at a first intermediate position along the peripheral surface of said second optical waveguide capable of coupling out of the cladding layer of said second waveguide the cladding modes coupled therein primarily from the core of said transmission waveguide for subsequent conversion to a representative electrical signal.
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Abstract
A directional optical waveguide coupler and power tap is disclosed for use with optical fibers or planar-form optical waveguides. Abutted to the end of a cladded optical transmission waveguide is a section of a second optical waveguide comprising a core surrounded by a cladding layer, the core having a smaller cross-sectional area than the core of the transmission waveguide. In the present arrangement, light energy propagating in the core of the second waveguide towards the transmission waveguide is coupled into the core of the transmission waveguide at the point of abuttment, whereas light energy propagating in the core of the transmission waveguide towards the second waveguide is coupled into both the core and cladding layer of the second waveguide at the point of abuttment. Means disposed along the second waveguide adjacent the point of abuttment couples out of the cladding layer the cladding modes transferred from the core-guided modes of the transmission waveguide for subsequent conversion into a representative electrical signal. A stripper-absorber means is also disposed along the second waveguide for removing spurious cladding modes propagating therebeneath towards both the coupling out means and the point of abuttment between the two waveguides.
44 Citations
7 Claims
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1. A directional optical waveguide coupler and power tap capable of coupling core-guided modes propagating in a first direction out of a transmission optical waveguide and avoiding loss of core-guided modes which may be propagating in a second direction, the transmission optical waveguide including a core surrounded by a layer of cladding material having a refractive index which is less than the refractive index of the core material, the directional coupler and power tap comprising
a second optical waveguide comprising a core having a given refractive index surrounded by a layer of cladding material having a refractive index which is less than the refractive index of said second waveguide core material, the core of said second waveguide having a cross-sectional area which is significantly smaller than the cross-sectional area of the core of the transmission waveguide, and one end of said second waveguide being abutted with an end of the transmission waveguide in a manner to permit a significant amount of the core-guided modes propagating in the first direction in the transmission waveguide to be coupled into the cladding layer of said second waveguide at said abutting point and to permit core-guided modes introduced at the other end of said second waveguide and propagating in a second direction in said second waveguide to be coupled primarily into the core of the transmission waveguide at said abutting point, and means disposed at a first intermediate position along the peripheral surface of said second optical waveguide capable of coupling out of the cladding layer of said second waveguide the cladding modes coupled therein primarily from the core of said transmission waveguide for subsequent conversion to a representative electrical signal.
Specification