Laterally emitting optical waveguides and method introduce micromodifications into an optical waveguide and provide optical waveguides. The waveguides and methods comprise an optical wave-guiding core, a region in the optical waveguide, wherein the micro-modifications are arranged in the region of the optical waveguide, wherein the arrangement of the micro-modifications is ordered.

A method of fabricating a variable diameter fiber includes providing a fiber optic cable comprising a cladding region, a fiber core, and a plurality of sacrificial regions disposed in the cladding region and focusing a laser beam at a series of predetermined locations inside the fiber optic cable. The method also includes creating a series of damage sites associated with the series of predetermined locations, wherein the series of damage sites define a variable diameter profile and a latticework in the cladding region of the fiber optic cable. The method further includes exposing the fiber optic cable to an etchant solution, preferentially etching the series of damage sites, and separating peripheral portions of the fiber optic cable to release the variable diameter fiber.

A method of fabricating a variable diameter fiber includes providing a fiber optic cable comprising a cladding region, a fiber core, and a plurality of sacrificial regions disposed in the cladding region and focusing a laser beam at a series of predetermined locations inside the fiber optic cable. The method also includes creating a series of damage sites associated with the series of predetermined locations, wherein the series of damage sites define a variable diameter profile and a latticework in the cladding region of the fiber optic cable. The method further includes exposing the fiber optic cable to an etchant solution, preferentially etching the series of damage sites, and separating peripheral portions of the fiber optic cable to release the variable diameter fiber.

Laterally emitting optical waveguides and method introduce micromodifications into an optical waveguide and provide optical waveguides. The waveguides and methods comprise an optical wave-guiding core, a region in the optical waveguide, wherein the micro-modifications are arranged in the region of the optical waveguide, wherein the arrangement of the micro-modifications is ordered.

Laterally emitting optical waveguides and method introduce micromodifications into an optical waveguide and provide optical waveguides. The waveguides and methods comprise an optical wave-guiding core, a region in the optical waveguide, wherein the micro-modifications are arranged in the region of the optical waveguide, wherein the arrangement of the micro-modifications is ordered.

A system for producing an optical fiber with inscribed grating array is described. The system comprises a fiber drawing apparatus for drawing an optical fiber, a writing system for inscribing a grating in the optical fiber during the drawing process of the optical fiber and a controller for controlling the driving of the writing system. According to the present invention the fiber drawing apparatus also comprises a fiber length and/or drawing detecting means for determining the fiber length and/or fiber drawing speed and/or a fiber drawing parameter during the drawing process. The controller thereby is configured for capturing information from the fiber length and/or drawing detecting means and for controlling the writing system based on the captured information captured from the fiber length and/or drawing detecting means.

A system for producing an optical fiber with inscribed grating array is described. The system comprises a fiber drawing apparatus for drawing an optical fiber, a writing system for inscribing a grating in the optical fiber during the drawing process of the optical fiber and a controller for controlling the driving of the writing system. According to the present invention the fiber drawing apparatus also comprises a fiber length and/or drawing detecting means for determining the fiber length and/or fiber drawing speed and/or a fiber drawing parameter during the drawing process. The controller thereby is configured for capturing information from the fiber length and/or drawing detecting means and for controlling the writing system based on the captured information captured from the fiber length and/or drawing detecting means.

Laterally emitting optical waveguides and methods introduce micromodifications into an optical waveguide and provide optical waveguides. The laterally emitting optical waveguides comprise at least an optical wave-guiding core and a region in the optical waveguide and the methods arrange the micro-modifications in the region of the optical waveguide and order the arrangement of the micro-modifications.

Laterally emitting optical waveguides and methods introduce micromodifications into an optical waveguide and provide optical waveguides. The laterally emitting optical waveguides comprise at least an optical wave-guiding core and a region in the optical waveguide and the methods arrange the micro-modifications in the region of the optical waveguide and order the arrangement of the micro-modifications.

Laterally emitting optical waveguides and methods introduce micromodifications into an optical waveguide and provide optical waveguides. The laterally emitting optical waveguides comprise at least an optical wave-guiding core and a region in the optical waveguide and the methods arrange the micro-modifications in the region of the optical waveguide and order the arrangement of the micro-modifications.