We present results on multi-core fibers (MCFs) for optical amplification/lasing obtained by combined thermal-optical finite-element method (FEM) simulations. Refractive index variation due to quantum defect caused heating is simulated to evaluate thermal dissipationinduced index gradients
Yb-doped double-cladding photonic crystal fibers are one of the key enabling factors for the develop...
Multi-core fibers are a technology currently at the forefront of research due to the increasing need...
A coupled-mode theory for nonlinear mode coupling by the thermo-optic effect, originally developed f...
We present results on multi-core fibers (MCFs) for optical amplification/lasing obtained by combined...
Multi-core fibers (MCFs) are promising solutions for high power fiber based devices as they reduce n...
The phase of modes in three-core optical fibers under high thermal load is studied by means of the c...
The phase of modes in three-core optical fibers under high thermal load is studied by means of combi...
Lasers for modern industrial and research applications are required to provide a high average beam p...
In this abstract, the performance of optically uncoupled cores in 9-core multi core fibers for high-...
The impact of thermo-optic refractive-index changes arising from the core heat load in a dual-core f...
Multi-core fiber capability to deliver several independent beams in a single structure has been deep...
Propagation of light in thermally loaded multi-core fibers causes phase shift due to temperature dis...
Multicore fibers have been recently proposed as a possible solution to overcome the problems which a...
Power scaling of fiber laser systems requires the development of innovative active fibers, capable o...
The aim of this work is to study the thermal and optical properties of 16-core fibers using the fini...
Yb-doped double-cladding photonic crystal fibers are one of the key enabling factors for the develop...
Multi-core fibers are a technology currently at the forefront of research due to the increasing need...
A coupled-mode theory for nonlinear mode coupling by the thermo-optic effect, originally developed f...
We present results on multi-core fibers (MCFs) for optical amplification/lasing obtained by combined...
Multi-core fibers (MCFs) are promising solutions for high power fiber based devices as they reduce n...
The phase of modes in three-core optical fibers under high thermal load is studied by means of the c...
The phase of modes in three-core optical fibers under high thermal load is studied by means of combi...
Lasers for modern industrial and research applications are required to provide a high average beam p...
In this abstract, the performance of optically uncoupled cores in 9-core multi core fibers for high-...
The impact of thermo-optic refractive-index changes arising from the core heat load in a dual-core f...
Multi-core fiber capability to deliver several independent beams in a single structure has been deep...
Propagation of light in thermally loaded multi-core fibers causes phase shift due to temperature dis...
Multicore fibers have been recently proposed as a possible solution to overcome the problems which a...
Power scaling of fiber laser systems requires the development of innovative active fibers, capable o...
The aim of this work is to study the thermal and optical properties of 16-core fibers using the fini...
Yb-doped double-cladding photonic crystal fibers are one of the key enabling factors for the develop...
Multi-core fibers are a technology currently at the forefront of research due to the increasing need...
A coupled-mode theory for nonlinear mode coupling by the thermo-optic effect, originally developed f...
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