Optical devices and methods of manufacture thereof
First Claim
1. An optical fiber having a core, an inner cladding and an outer cladding on and surrounding the inner cladding, the cor having a core refractive index and being arranged to permit a light beam to travel therethrough and the inner cladding having an inner cladding refractive index, wherein in a first region the inner cladding refractive index has a first value, and the first value differs from the cor refractive index by an amount of the order of 0.0045 and in an adjoining region which includes a free-space end of said fiber, the inner cladding refractive index, changes along said fiber from the first value to a second value at the free-space end of the fiber, wherein the second value substantially matches the core refractive index, whereby the effective diameter of the core is that of the core plus the inner cladding at the free-space end.
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Abstract
An optical fiber has a core, an inner cladding and an outer cladding on. In a first region the inner cladding refractive index has a first value which differs from the core refractive index by about 0.0045. The inner cladding refractive index changes along said fiber from the first value to a second value at a free-space end. The second value matches the core refractive index, so that the effective diameter of the core at the free-space end is that of the core plus the inner cladding. Hence the outer cladding acts to constrain the light in the end region. The spot-size and the V number (normalized frequency) are increased, thereby increasing offset tolerances.
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Citations
17 Claims
- 1. An optical fiber having a core, an inner cladding and an outer cladding on and surrounding the inner cladding, the cor having a core refractive index and being arranged to permit a light beam to travel therethrough and the inner cladding having an inner cladding refractive index, wherein in a first region the inner cladding refractive index has a first value, and the first value differs from the cor refractive index by an amount of the order of 0.0045 and in an adjoining region which includes a free-space end of said fiber, the inner cladding refractive index, changes along said fiber from the first value to a second value at the free-space end of the fiber, wherein the second value substantially matches the core refractive index, whereby the effective diameter of the core is that of the core plus the inner cladding at the free-space end.
- 7. An optical fiber having a core, an inner cladding and an outer cladding on and surrounding the inner cladding, the core having a core refractive index and being arranged to permit a light beam to travel therethrough, wherein the refractive index of the inner cladding varies from a first value substantially equal to that of the outer cladding to a second value at a free-space end of the fiber, the second value substantially matching the core refractive index, whereby the effective diameter of the core is that of the core plus the inner cladding at the free-space end.
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13. An optical fiber having a core, a photosensitive inner cladding and a further cladding surrounding the photosensitive inner cladding, the core being arranged to permit a light beam to travel therethrough, the fiber having a first end zone in which the inner cladding has a plurality of refractive indices along a longitudinal axis of the fiber, the fiber further having a second end at which it is compatible with a standard telecommunications fiber, said refractive indices being such that in use the light beam travels along the fiber, the refractive indices defining a taper such that at a free-space end of the fiber the diameter of the core is increased to a enlarged core diameter equal to that of the core plus the Inner cladding;
- and whereby at said free-space end the fiber has a V number greater than that of a standard telecommunications fiber, wherein the outer dimension of the fiber is unchanged along its length.
- View Dependent Claims (14, 15, 16)
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17. An array of beam-steering elements for steering light from an array of input fibers to an array of output elements wherein the input fibers each have a core, an inner cladding and an outer cladding on and surrounding the inner cladding, the core having a core refractive index and being arranged to permit a light beam to travel therethrough, wherein the refractive index of the inner cladding varies from a first value substantially equal to that of the further cladding to a second value at a free-space end of the fiber, the second value substantially matching the core refractive index, whereby the effective diameter of the core is that of the core plus the inner cladding, wherein each said beam-steeling element has a width defined as a given multiple of the spot-size of the input fibers, and wherein the input fibers have a ratio of separation-to-spot-size which ratio is selected to be equal to the given multiple times the square root of 2.
Specification
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- Resources
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Current AssigneeThomas Swan & Company Limited (Aixtron AG)
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Original AssigneeThomas Swan & Company Limited (Aixtron AG)
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InventorsHolmes, Melanie
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Primary Examiner(s)Williams, Joseph
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Assistant Examiner(s)Dong, Dalei
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Application NumberUS10/148,906Publication NumberTime in Patent Office1,695 DaysField of Search385126-128, 385/123, 385/124, 385/43, 653/85US Class Current385/127CPC Class CodesG02B 6/0281 Graded index region forming...G02B 6/0283 Graded index region externa...G02B 6/03633 arranged - -G02B 6/03694 Multiple layers differing i...G02B 6/13 Integrated optical circuits...G02B 6/262 Optical details of coupling...G02B 6/29307 components assembled in or ...G02B 6/29308 Diffractive element having ...G02B 6/2931 Diffractive element operati...G02B 6/3512 the optical element being r...G02B 6/3546 NxM switch, i.e. a regular ...G02B 6/3548 1xN switch, i.e. one input ...G02B 6/3582 Housing means or package or...G02B 6/3833 Details of mounting fibres ...
