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The dispersion of a broadband-guiding hollow core photonic crystal fiber, possessing a Kagome cladding structure, can be adversely influenced by weak residual mode interactions. The impact on pulse propagation is explored.
A new kind of hollow core photonic crystal fiber (HC-PCF) for broadband guidance is introduced. Structural and optical properties of a fabricated example are detailed.
A new kind of hollow core photonic crystal fiber (HC-PCF) for broadband guidance is introduced. Structural and optical properties of a fabricated example are detailed.
We report on fabricated all-solid fibers which guide by a combination of bandgap and TIR mechanisms. The fibers show high birefringence and possess a dispersion characteristic similar to the pure bandgap guiding form.
The dispersion of a broadband-guiding hollow core photonic crystal fiber, possessing a Kagome cladding structure, can be adversely influenced by weak residual mode interactions. The impact on pulse propagation is explored.
Large pitch square-lattice hollow core photonic crystal fibers have been fabricated. Measurements show that the fiber exhibits similar optical linear properties to the Kagome fiber.
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