Recent advances in the field of Er3+-doped optical fibre amplifiers and lasers operating around λ = 1.54µm will be described, with particular reference to 'new' pump wavelengths and practical pump sources for these devices
By choosing pump wavelengths at which excited state absorption does not occur, efficient high gain o...
Erbium-doped fibre devices, such as lasers and amplifiers, are important components in optical commu...
Single-mode fibre lasers operating at ~1.57µm are described. Output powers of >2 mW are reported ...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
Rare-earth doped fibre lasers and amplifiers are attractive for use in fibre optic sensor and fibre ...
Erbium-doped fibers show promise as stable narrow-linewidth laser sources and optical amplifiers ope...
There is currently considerable interest in lasers based on the fiber waveguide geometry, and crysta...
Fibre devices technology has reached a mature status over the last few years. It has been an importa...
By choosing pump wavelengths which avoid excited-state absorption, efficient, high-gain, erbium-dope...
The optical amplifier became a realistic prospect for telecommunications after the demonstration of ...
An optical amplifier consisting of an erbium-doped germanosilicate fibre optically pumped at 532nm i...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
Current status and future prospects for a practical 1.3µm fibre amplifier are reviewed. Summary: The...
This thesis describes the development and characterisation of single-mode optical fibre lasers and a...
The Er3+ fibre laser operates at a wavelength between 1.5 and 1.6 microns and is thus of interest fo...
By choosing pump wavelengths at which excited state absorption does not occur, efficient high gain o...
Erbium-doped fibre devices, such as lasers and amplifiers, are important components in optical commu...
Single-mode fibre lasers operating at ~1.57µm are described. Output powers of >2 mW are reported ...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
Rare-earth doped fibre lasers and amplifiers are attractive for use in fibre optic sensor and fibre ...
Erbium-doped fibers show promise as stable narrow-linewidth laser sources and optical amplifiers ope...
There is currently considerable interest in lasers based on the fiber waveguide geometry, and crysta...
Fibre devices technology has reached a mature status over the last few years. It has been an importa...
By choosing pump wavelengths which avoid excited-state absorption, efficient, high-gain, erbium-dope...
The optical amplifier became a realistic prospect for telecommunications after the demonstration of ...
An optical amplifier consisting of an erbium-doped germanosilicate fibre optically pumped at 532nm i...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
Current status and future prospects for a practical 1.3µm fibre amplifier are reviewed. Summary: The...
This thesis describes the development and characterisation of single-mode optical fibre lasers and a...
The Er3+ fibre laser operates at a wavelength between 1.5 and 1.6 microns and is thus of interest fo...
By choosing pump wavelengths at which excited state absorption does not occur, efficient high gain o...
Erbium-doped fibre devices, such as lasers and amplifiers, are important components in optical commu...
Single-mode fibre lasers operating at ~1.57µm are described. Output powers of >2 mW are reported ...
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