Add to ORKGOptical amplifiers are of interest as wideband in-line repeaters for telecommunications and as signal regenerators for a variety of sensor applications. Much current research has concentrated on semiconductor laser amplifiers which are difficult to splice to fiber systems. It is clear that an amplifier consisting of a special optical fiber which is compatible with telecommunication fiber would overcome this problem. This paper describes the first results of an optical fiber amplifier based on an Er3+-doped fiber which has a maximum gain at a wavelength of 1.536 µm. A single-pass gain of 26 dB and a maximum output of 13 dBm at 140 MHz has been demonstrated
There is currently considerable interest in lasers based on the fiber waveguide geometry, and crysta...
The erbium-doped fibre amplifier (EDFA) has developed at a startling speed since its announcement in...
The optical amplifier became a realistic prospect for telecommunications after the demonstration of ...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
An optical amplifier consisting of an erbium-doped germanosilicate fibre optically pumped at 532nm i...
Rare-earth doped fibre lasers and amplifiers are attractive for use in fibre optic sensor and fibre ...
A complete experimental and theoretical study of rare earth doped fiber-optic amplifiers for the fir...
During the 1980s there has been increasing interest in rare-earth doped, single mode fibres for devi...
The application of the recently developed erbium-doped optical-fibre amplifier to pre- and post-ampl...
High gain amplification of up to 28 dB has been observed in a 3m-long erbium-doped fibre. The amplif...
The erbium-doped fibre amplifier (EDFA) has developed rapidly since its announcement in 1987. The ED...
Erbium-doped single-mode fibre amplifiers (EDFA) which operate around lambda = 1.54µm, coinciding wi...
To date, most research on rare earth doped optical fibre amplifiers has been directed towards develo...
Optimization of both fiber and device design is essential for maximum performance from erbium doped ...
The technical realization of data transmission using glass fiber began after the development of diod...
There is currently considerable interest in lasers based on the fiber waveguide geometry, and crysta...
The erbium-doped fibre amplifier (EDFA) has developed at a startling speed since its announcement in...
The optical amplifier became a realistic prospect for telecommunications after the demonstration of ...
The field of rare-earth-doped fibre lasers and amplifiers has expanded rapidly in recent years and t...
An optical amplifier consisting of an erbium-doped germanosilicate fibre optically pumped at 532nm i...
Rare-earth doped fibre lasers and amplifiers are attractive for use in fibre optic sensor and fibre ...
A complete experimental and theoretical study of rare earth doped fiber-optic amplifiers for the fir...
During the 1980s there has been increasing interest in rare-earth doped, single mode fibres for devi...
The application of the recently developed erbium-doped optical-fibre amplifier to pre- and post-ampl...
High gain amplification of up to 28 dB has been observed in a 3m-long erbium-doped fibre. The amplif...
The erbium-doped fibre amplifier (EDFA) has developed rapidly since its announcement in 1987. The ED...
Erbium-doped single-mode fibre amplifiers (EDFA) which operate around lambda = 1.54µm, coinciding wi...
To date, most research on rare earth doped optical fibre amplifiers has been directed towards develo...
Optimization of both fiber and device design is essential for maximum performance from erbium doped ...
The technical realization of data transmission using glass fiber began after the development of diod...
There is currently considerable interest in lasers based on the fiber waveguide geometry, and crysta...
The erbium-doped fibre amplifier (EDFA) has developed at a startling speed since its announcement in...
The optical amplifier became a realistic prospect for telecommunications after the demonstration of ...