Fiber coupled Er3+: Chalcogenide microsphere amplifier in mid-IR wavelength range

2014 Third Mediterranean Photonics Conference Pub Date : 2014-05-07 DOI:10.1109/MEPHOCO.2014.6866469
G. Palma, T. Castellano, O. Losito, T. Yano, V. Nazabal, J. Taguchi, A. Moreac, M. Ferrari, F. Prudenzano
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Abstract

A mid-IR amplifier constituted of a tapered chalcogenide fiber coupled to an Er3+-doped chalcogenide microsphere has been optimized via a particle swarm optimization (PSO) algorithm. The numerical model is based on the coupled mode theory and on the erbium rate equations, including the main transitions among the ion energy levels. The PSO has allowed the optimal choice of the microsphere and taper fiber radius, fiber angle taper, fiber-microsphere gap in order to maximize the amplifier gain, which is close to G=7 dB, calculated for a pump power Pp = 100 mW and the input signal power Ps = -50 dBm, at signal wavelength λ=4500 nm.
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中红外光纤耦合Er3+:硫化物微球放大器
采用粒子群优化算法优化了由掺Er3+的硫族化物微球与锥形硫族化物光纤耦合构成的中红外放大器。该数值模型基于耦合模式理论和铒速率方程,包括离子能级间的主要跃迁。在信号波长λ=4500 nm时,当泵浦功率Pp = 100 mW,输入信号功率Ps = -50 dBm时,放大器增益接近G=7 dB。
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2014 Third Mediterranean Photonics Conference
2014 Third Mediterranean Photonics Conference
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