Filled-core optical fiber and method of making the same
First Claim
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1. A filled-core optical fiber comprisinga central section including a core region filled with optically active material and a high refractive index cladding ring surrounding said core region, said central section defined as having a first end termination and a second, opposing end termination;
- a first coupling region coupled to the central section first end termination, said first coupling region including a core area comprising a collapsed section of said high refractive index cladding ring; and
a second coupling region coupled to the central section second, opposing end termination, said second coupling region including a core area comprising a collapsed section of said high refractive index cladding ring.
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Abstract
A filled-core optical fiber and method where the optical fiber is collapsed at opposing ends subsequent to the active optical material being introduced into the hollow core region. The collapsing-functions to “pinch off” the active material (which may be a liquid or solid) within the fiber structure and also collapse the cladding layer ring surrounding the core into a solid core region on either side of the active material. The filled-core fiber is then sealed and can be coupled to standard fiber using conventional splicing processes.
26 Citations
18 Claims
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1. A filled-core optical fiber comprising
a central section including a core region filled with optically active material and a high refractive index cladding ring surrounding said core region, said central section defined as having a first end termination and a second, opposing end termination; -
a first coupling region coupled to the central section first end termination, said first coupling region including a core area comprising a collapsed section of said high refractive index cladding ring; and
a second coupling region coupled to the central section second, opposing end termination, said second coupling region including a core area comprising a collapsed section of said high refractive index cladding ring. - View Dependent Claims (2, 3, 4, 5, 6, 7)
a first transition region disposed between the first coupling region and the central region, said first transition region including an outward taper coupling the high index core area of said first coupling region to said high refractive index cladding ring; - and
a second transition region disposed between said central region and the second coupling region, said second transition region including an inward taper coupling said high refractive index cladding ring to said high refractive index core area of the second coupling region.
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7. A filled-core optical fiber as defined in claim 6 wherein the inward and outward tapers comprise adiabatic tapers so as to maintain an essentially low-loss mode evolution across each transition region.
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8. An optical communication system comprising
a communication fiber including a core area having a defined diameter; - and
a filled-core optical fiber including a central section including a core region filled with optically active material and a high refractive index cladding ring surrounding said core region, said central section defined as having a first end termination and a second, opposing end termination;
a first coupling region coupled to the central section first end termination, said first coupling region including a core area comprising a collapsed section of said high refractive index cladding ring; and
a second coupling region coupled to the central section second, opposing end termination, said second coupling region including a core area comprising a collapsed section of said high refractive index cladding ring, wherein the communication fiber is coupled to the first coupling region so as to align the communication fiber core area with the high refractive index core area of said first coupling region. - View Dependent Claims (9, 10, 11, 12, 13, 14, 15)
a second communication fiber including a core area having a defined diameter, the second communication fiber coupled to the second coupling region so as to align the second communication fiber core area with the high refractive index core area of said second coupling region. -
15. An optical communication system as defined in claim 14 wherein the second coupling region core area comprises a diameter essentially equal to the second communication fiber core area.
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16. A method of making a filled-core optical fiber, the method comprising the steps of:
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providing a section of hollow-core fiber, said hollow-core fiber defined as having a first end termination and a second, opposing end termination and including a high refractive index cladding ring surrounding a hollow core region;
filling a portion of said hollowing core region with an optically active material; and
collapsing the first and second end terminations of said hollow-core fiber so as to encapsulate the optically active material and collapse the cladding ring at each end termination into a high refractive index solid core region. - View Dependent Claims (17, 18)
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Specification
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Current AssigneeFurukawa Electric North America Incorporated (Furukawa Electric Company Limited)
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Original AssigneeFitel USA Corporation
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InventorsMalik, Abds-Sami, Wielandy, Stephan, Abeeluck, Akheelesh, Eggleton, Benjamin, Headley, Clifford
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Primary Examiner(s)Bovernick, Rodney
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Assistant Examiner(s)Doan, Jennifer
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Application NumberUS10/342,793Publication NumberTime in Patent Office713 DaysField of Search385/123, 385/125US Class Current385/125CPC Class CodesG02B 6/032 with non solid core or clad...G02B 6/305 and having an integrated mo...
