Highly Efficient, High-Gain, Short Length and Power Scalable Incoherent Diode Slab-pumped Fiber Amplifier/Laser
نویسندگان
چکیده
We propose a new geometry of clad-pumped fiber amplifier/laser that includes at least one doped core which guides the signal wave and at least one clad region that guides the incoherent pump. Our proposed geometry enables the incoherent diode pump light to be efficiently absorbed by the doped glass core over very short lengths on the order of a few to tens of centimeters. The transparent cladding is realized as a narrow slab with refractive index higher than that of the core. The slab is designed to effectively capture all of the incoherent pump light and is tapered to force the highly-moded incoherent guided light into the strongly absorbing core. Modes of this composite waveguide structure are analysed in this paper. Criteria are established in terms of the refractive indices of the core, slab and cladding that ensure efficient absorption of the pump light in the core while ensuring that only a single or few lowest order signal modes can propagate in the amplifying core. Numerical simulations with the Beam Propagation Method and a modal expansion technique confirm that a significant enhancement of the absorption efficiency of the pump in the core can be realized by tapering the slab waveguide. Assuming a local absorption rate of 10 cm−1 of the intensity of the pump in a core of radius 4.3μ and a realistic multimode diode pump distributed over a 100μ aperture, an absorption efficiency of 94% can be realized over an amplfier length of 2 cm. The geometry is scalable to longer lengths and multiple incoherent diode-pumped slab claddings.
منابع مشابه
diffraction-limited beam and quantum noise measurements in a continuous-wave laser-diode-pumped Nd:YAG MOPA system
We describe a Nd:YAG slab laser master oscillator power amplifier (MOPA) system that has been scaled to 104 W of output power at 1064 nm, single transverse mode. The amplifier system consists of rod amplifiers followed by edgeand end-pumped slab amplifiers. The MOPA output of 104 W was 89% fundamental TEM00 spatial mode with less than 3% depolarization. These results are a key milestone in the ...
متن کاملObservation of Raman Gain in Reduced Length of Bismuth Erbium Doped Fiber
Raman amplification of a 49 cm Bismuth oxide (Bi2O3) as a nonlinear gainmedium based erbium doped fiber amplifier (EDFA) is reported in new and compactdesign in near infrared spectral regions. The bismuth glass host provides theopportunity to be doped heavily with erbium ions to allow a compact optical gain fiberamplifier design by using reduced fiber length and the 1480...
متن کاملSingle Crystal Fiber for Ultrashort Pulses Lasers
Driven by the micromachining industry, where short pulses mean precision and power equals process speed, short pulse width high power lasers are in high demand. Whereas the MOPA (Master Oscillator Power Amplifier) is the current preferred architecture, it still suffers from performance limitations and high costs associated with system complexity and power amplifier limitations. A new amplifier ...
متن کاملEfficient Single-Frequency Thulium Doped Fiber Laser Near 2-μm
We demonstrate highly efficient diode-pumped single-frequency fiber laser with 35% slope efficiency and 50mW output power operating near 2μm, which generated from a 2-cm long piece of highly Tm-doped germanate glass fiber pumped at 800nm. ©2007 Optical Society of America OCIS code: (060.2320) Fiber optics amplifiers and oscillators; (140.3570) Lasers, single-mode; (140.5680) Rare earth and tran...
متن کاملMulti-stage Ytterbium Fiber-amplifier Seeded by a Gain-switched Laser Diode
We demonstrated all-fiber amplification of 11 ps pulses from a gain-switched laser diode at 1064 nm. The diode was driven at a repetition rate of 40 MHz and delivered 13 μW of fiber-coupled average output power. For the low output pulse energy of 325 fJ we have designed a multi-stage core pumped pre-amplifier in order to keep the contribution of undesired amplified spontaneous emission as low a...
متن کامل