Add to ORKGThis thesis describes the development and characterisation of single-mode optical fibre lasers and amplifiers. Although the fibre laser configuration was first employed over twenty years ago, its application to conventional optical fibre technology has not been demonstrated previously.The new devices are based on single-mode fibres doped with rare-earth ions, notably neodymium and erbium. The combination of strong absorption bands, long fluorescence lifetimes; low fibre losses in the infra-red and small fibre cores have made possible very low threshold and efficient fibre lasers. Experiments on the tunability, output spectra and pulsed operation of these devices are described. A number of world firsts, including the Lowest, threshold and wi...
Fibre devices technology has reached a mature status over the last few years. It has been an importa...
Erbium-doped fibre devices, such as lasers and amplifiers, are important components in optical commu...
When grouped with rare-earths, glass optical fibres provide the ideal amplifier and laser medium. Am...
Rare-earth doped fibre lasers and amplifiers are attractive for use in fibre optic sensor and fibre ...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
Rare-earth doped single-mode fibre lasers and amplifiers will form the basis of all-fibre optical ci...
The incorporation of rare-earth ions into glass fibres to form fibre lasers and amplifiers is not a ...
The development of techniques to produce single-mode rare-earth-doped fibres has led to many passive...
Single-mode fibres containing several different rare-earth dopants have been fabricated. Characteris...
A laser medium in the form of a single mode optical fibre offers a number of attractive features. Fo...
The incorporation of rare-earth ions into glass fibres to form fibre lasers and amplifiers is not a ...
Rare-earth doped single-mode optical fibres have led to the development of a range of active fibre d...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
A brief review is given of the current status of research in the field of rare-earth doped fibre las...
Optical fibres for telecommunications are well known, have been studied in detail, and are being app...
Fibre devices technology has reached a mature status over the last few years. It has been an importa...
Erbium-doped fibre devices, such as lasers and amplifiers, are important components in optical commu...
When grouped with rare-earths, glass optical fibres provide the ideal amplifier and laser medium. Am...
Rare-earth doped fibre lasers and amplifiers are attractive for use in fibre optic sensor and fibre ...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
Rare-earth doped single-mode fibre lasers and amplifiers will form the basis of all-fibre optical ci...
The incorporation of rare-earth ions into glass fibres to form fibre lasers and amplifiers is not a ...
The development of techniques to produce single-mode rare-earth-doped fibres has led to many passive...
Single-mode fibres containing several different rare-earth dopants have been fabricated. Characteris...
A laser medium in the form of a single mode optical fibre offers a number of attractive features. Fo...
The incorporation of rare-earth ions into glass fibres to form fibre lasers and amplifiers is not a ...
Rare-earth doped single-mode optical fibres have led to the development of a range of active fibre d...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
A brief review is given of the current status of research in the field of rare-earth doped fibre las...
Optical fibres for telecommunications are well known, have been studied in detail, and are being app...
Fibre devices technology has reached a mature status over the last few years. It has been an importa...
Erbium-doped fibre devices, such as lasers and amplifiers, are important components in optical commu...
When grouped with rare-earths, glass optical fibres provide the ideal amplifier and laser medium. Am...