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We report on the design of a novel flexible very large mode area photonic crystal fibre for short pulse high peak power fibre laser and beam delivery applications. This fibre has an extremely large mode area exceeding 2500 mu m(2) when kept straight and over 1000 mu m(2) when bent over a 10 cm radius at a wavelength of 1064 nm. In addition our fibre exhibits very small fundamental mode bending loss below 10(-2) dB/m. The large difference between the propagation loss levels of fundamental and higher order modes forces efficient single-mode guidance in the fibre core while bent. This allows using the fibre to build compact high power laser systems. The paper further explores the major features of this fibre including: the dependence of the mode field area on the fibre core shape, the influence of the bending radius and of the bending direction as well as the impact of manufacturing tolerances on the fibre specifications. (C) 2010 Optical Society of America
|Number of pages||11|
|Publication status||Published - 19 Jul 2010|
- HIGHER-ORDER MODES; MICROSTRUCTURE FIBERS
- DESIGN; PERFORMANCE; LASERS
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