Add to ORKGWe determine the origin of transition loss in bent waveguides and fibres. We show that transition loss can be suppressed, even in very tight bends provided that, in the geometrical transition from the straight to the bent waveguide or fibre, the local curvature is increased sufficiently slowly along the bend. Experimental results demonstrate this effect and are shown to be consistent with numerical simulations
Extremely large mode area fibers that are single-moded over a broad wavelength range can be created ...
We present analytical and numerical results that describe and quantify bend loss. Our approach is ba...
Bend loss effects can be a significant concern in the design and performance of diffused, buried wav...
Curvature of a single-mode optical fibre gives rise to two principal forms of additional transmissio...
A new theoretical strategy for reducing bend loss is presented. It is based on the concept of introd...
Experimental and theoretical studies on the radiation loss from curved single-mode fibres show that ...
We present the first experimental observations of transition and pure bend loss for macrobends in ho...
Abstract—This paper presents an improved curvature loss for-mula for optical waveguides, which is sh...
A study of propagation in curved single-mode fibres shows that the transmission loss increases sharp...
Bend loss can be quantified by following coupling between fundamental and cladding modes with changi...
A new approach to the physical description and quantification of bend loss in arbitrarily bent singl...
To compute the bending losses of modes in optical fibers, a full-vectorial analysis of the bent fibe...
The radiated power emanating from a bent single-mode fiber is computed for various radii of curvatur...
Bending losses in optical fibers comprise one of the extrinsic attenuations that contribute to optic...
Simple formulae are given for the field displacement caused by bending, the change in mode volume an...
Extremely large mode area fibers that are single-moded over a broad wavelength range can be created ...
We present analytical and numerical results that describe and quantify bend loss. Our approach is ba...
Bend loss effects can be a significant concern in the design and performance of diffused, buried wav...
Curvature of a single-mode optical fibre gives rise to two principal forms of additional transmissio...
A new theoretical strategy for reducing bend loss is presented. It is based on the concept of introd...
Experimental and theoretical studies on the radiation loss from curved single-mode fibres show that ...
We present the first experimental observations of transition and pure bend loss for macrobends in ho...
Abstract—This paper presents an improved curvature loss for-mula for optical waveguides, which is sh...
A study of propagation in curved single-mode fibres shows that the transmission loss increases sharp...
Bend loss can be quantified by following coupling between fundamental and cladding modes with changi...
A new approach to the physical description and quantification of bend loss in arbitrarily bent singl...
To compute the bending losses of modes in optical fibers, a full-vectorial analysis of the bent fibe...
The radiated power emanating from a bent single-mode fiber is computed for various radii of curvatur...
Bending losses in optical fibers comprise one of the extrinsic attenuations that contribute to optic...
Simple formulae are given for the field displacement caused by bending, the change in mode volume an...
Extremely large mode area fibers that are single-moded over a broad wavelength range can be created ...
We present analytical and numerical results that describe and quantify bend loss. Our approach is ba...
Bend loss effects can be a significant concern in the design and performance of diffused, buried wav...