Abstract: An optical assembly for communication of an optical signal between fiber and a receiver or transmitter, including a body including a guideway, a first semiconductor optical element for conversion between electrical and optical signals and for one of receiving or transmitting light, and an optical fiber. The semiconductor optical element is mounted in register with the body. The optical fiber includes a core, a cladding surrounding the core, and a protective coating surrounding the cladding. The guideway receives a selected length of the optical fiber, and the protective coating is present along a majority of the selected length.
Abstract: Disclosed is an optical fiber article for receiving pump radiation of a first wavelength for amplifying or generating radiation of a second wavelength. The optical fiber article includes a core for propagating light of the second wavelength. The core has a first index of refraction and includes a rare earth material. A cladding surrounds the core and has a second index of refraction that is less than the first index of refraction. The outer circumference of the cladding can include a plurality of sections, where the plurality of sections includes at least one substantially straight section and one inwardly curved section. The optical fiber article can also include at least one outer layer surrounding the cladding, where the index of refraction of the outer layer is less than the second refractive index. Methods for producing the optical fiber article are also disclosed, as well as methods for providing a preform for drawing such an optical fiber article.
Abstract: A double-clad optical fiber includes a core, a multimode inner cladding layer disposed about the core, and a second cladding layer disposed about the inner cladding layer. The core includes an active material for absorbing pump radiation received by the inner cladding. The multimode inner cladding includes truncated regions including a first material, where the first material has an index of refraction that is different than the material of the inner cladding that surrounds said truncated regions, for promoting the scattering of pump radiation propagating in the multimode inner cladding for increasing the absorption of the pump radiation by the active material of the core. Particles can be distributed in soot deposited via Outside Vapor Deposition for forming the truncated regions in an optical fiber drawn from the preform.
Type:
Grant
Filed:
June 25, 2001
Date of Patent:
February 3, 2004
Assignee:
Nufern
Inventors:
Adrian Carter, Kanishka Tankala, Martin Seifert
Abstract: An optical assembly for communication of an optical signal between fiber and a receiver or transmitter, including a body including a guideway, a first semiconductor optical element for conversion between electrical and optical signals and for one of receiving or transmitting light, and an optical fiber. The semiconductor optical element is mounted in register with the body. The optical fiber includes a core, a cladding surrounding the core, and a protective coating surrounding the cladding. The guideway receives a selected length of the optical fiber, and the protective coating is present along a majority of the selected length.
Abstract: Optical apparatus including a cladding-pumped optical fiber that includes a core that includes an active material, a multimode inner cladding disposed about the core, and a second cladding disposed about the multimode inner cladding. The cladding-pumped optical fiber can include, disposed about the inner cladding layer, an asymmetrical layer, a layer that includes granular matter, a compressive layer, or a hard layer. External provision can be included for applying stress to the cladding-pumped optical fiber.
Type:
Grant
Filed:
June 6, 2001
Date of Patent:
September 23, 2003
Assignee:
Nufern
Inventors:
Adrian Carter, Kanishka Tankala, Nils J. Jacobson
Abstract: Disclosed is an optical fiber article for receiving pump radiation of a first wavelength for amplifying or generating radiation of a second wavelength. The optical fiber article includes a core for propagating light of the second wavelength. The core has a first index of refraction index and includes a rare earth material. A cladding surrounds the core and has a second index of refraction that is less than the first index of refraction. The outer circumference of the cladding can include a plurality of sections, where the plurality of sections includes at least one substantially straight section and one inwardly curved section. The optical fiber article can also include at least one outer layer surrounding the cladding, where the index of refraction of the outer layer is less than the second refractive index. Methods for producing the optical fiber article are also disclosed, as well as methods for providing a preform for drawing such an optical fiber article.