The rolled photonic fibers presents two codependent, technologically exploitable features for light and color manipulation: regularity on the nanoscale that is superposed with microscale cylindrical symmetry, resulting in wavelength selective scattering of light in a wide range of directions. The bio-inspired photonic fibers combine the spectral filtering capabilities and color brilliance of a planar Bragg stack compounded with a large angular scattering range introduced by the microscale curvature, which also decreases the strong directional chromaticity variation usually associated with flat multilayer reflectors. Transparent and elastic synthetic materials equip the multilayer interference fibers with high reflectance that is dynamically tuned by longitudinal mechanical strain. A two-fold elongation of the elastic fibers results in a shift of reflection peak center wavelength of over 200 nm.

A hollow core optical fiber guide is provided that comprises a body for reflecting light comprising a first end, a second end, a longitudinal dimension extending between the first end and the second end, an inner sidewall, an outer sidewall, and a transverse dimension extending radially between the inner sidewall and the outer sidewall, wherein the body comprises a plurality of optically dielectric material and each of the plurality of dielectric material having a different refractive index; and a light guiding core region disposed within the body.

In one embodiment, an apparatus comprises a photonic waveguide formed in an element of core material and comprising a waveguide core extending within the core material and surrounded by core material with a modified index of refraction, and a fiber positioned in a slot formed in the element of core material with a core of the fiber aligned with the waveguide core. A method for forming the photonic waveguide and fiber coupling is also disclosed herein.

The present invention, as disclosed and described herein, in one aspect thereof comprises a preform for making a vortex optical fiber includes a glass cylinder formed substantially of silicone dioxide that defines a core portion along a longitudinal axis of the glass cylinder and a cladding portion surrounding the core portion. The glass cylinder further defines a plurality of holes running parallel to the longitudinal axis from a first end of the glass cylinder to a second end of the glass cylinder.

A Micro-scale waveguide spectroscope is provided. The waveguide spectroscope includes a waveguide having a bent region that does not satisfy a total reflection condition, and a light detector arranged on the bent region of the waveguide and configured to detect light emitted from the bent region. The waveguide includes a single layer having a refractive index greater than that of air or includes a core layer and a cladding layer surrounding the core layer. The waveguide has at least a first region having a first radius of curvature and a second region having a second radius of curvature different from the first radius of curvature.

The present application is directed in various illustrative embodiments to an optical waveguide, an optical waveguide system with such an optical waveguide, a light energy storage structure, light confining structures, a light energy storage system and an energy storage and/or conversion system with such an optical waveguide system. In an aspect, an optical waveguide is provided, comprising an optical fiber with a fiber core and an optical active cladding structure over at least a portion of the fiber core at a first end of the optical waveguide, wherein the optical active cladding structure comprises a Bragg mirror stacking having a high transmittance in a first wavelength region and a high reflectivity in a second wavelength region of wavelengths longer than wavelengths in the first wavelength region, and a wavelength conversion coating over the fiber core of the optical fiber. The wavelength conversion coating is configured to convert radiation with wavelengths in the first wavelength region into radiation with wavelengths in the second wavelength region and the Bragg mirror stacking is disposed over the wavelength conversion coating.

Air core optical fiber structures in which the cladding is composed of an engineered optical metamaterial having a refractive index less than unity for at least one specific wavelength band and provides for total internal reflection of optical energy between the air core and metamaterial cladding. According to certain examples, a method of guiding optical energy includes constructing a hollow core optical fiber with an all-dielectric optical metamaterial cladding, coupling optical energy into the optical fiber having an operating wavelength near a resonance of the metamaterial cladding, and guiding the optical energy within the hollow core optical fiber by total internal reflection.

A hollow body for light guide cable for ultrashort pulse laser, which is characterized by a spherical shape and a bore for the insertion of an light guide fiber. Hollow body and hollow core fiber can be evacuated prior to bonding and/or filled with a gas at a defined pressure. The two hollow bodies are gas-tightly connected to the optical fiber.

A preform for making a vortex optical fiber comprises a glass cylinder formed substantially of silicone dioxide that defines a core portion along a longitudinal axis of the glass cylinder and a cladding portion surrounding the core portion. The glass cylinder further defines a plurality of holes running parallel to the longitudinal axis from a first end of the glass cylinder to a second end of the glass cylinder.

The present invention concerns a cutting apparatus including a femtosecond laser, a shaping system downstream from the femtosecond laser, for forming a phase-modulated laser beam, an optical scanner downstream from the shaping system, and optical focusing system downstream from the optical scanner, a control unit for controlling the shaping system, the optical scanner and the optical focusing system, characterized in that the apparatus further comprises an optical coupler between the femtosecond laser and the shaping system, the optical coupler including a photonic crystal optical fiber for filtering the phase-modulated laser beam coming from the shaping system.