Abstract
A Widely flatness gainbandwidth with double pass parallel hybrid fiber amplifier is experimentally demonstrated in this study. The proposed design combines serial erbium–Raman fiber amplifier in one branch and Raman fiber amplifier in the second branch. Multiple Raman pump units with a maximum power of 800 mW (250 mW of 1410 nm, 225 mW of 1480 nm, and 325 mW of 1495 nm) are utilized. Pump recycling technique is applied to achieve acceptable pumping efficiency. A maximum flatness gain bandwidth of 80 nm (1525–1605 nm) and average gain level of 22.5 dB are obtained at a small input signal power of \(-25\) dBm and optimum pump power values. While, a wider flatness gain of 90 nm (1520–1610 nm) and average gain level of 11.5 dB are achieved at a large input signal power of \(-5\) dBm.
Highlights
Raman fiber (RFA) and erbium-doped fiber (EDFA)amplifiers have been combined as a hybrid-fiber amplifier (HFA) by many researchers
Amplified spontaneous emission (ASE) of the proposed double-pass Parallel HFA (PHFA) in the absence of the input signal power is shown in fig
Optimization is performed for the pump power of 1480 nm to achieve a wide flatness spectrum
Summary
Raman fiber (RFA) and erbium-doped fiber (EDFA)amplifiers have been combined as a hybrid-fiber amplifier (HFA) by many researchers. The SHFA scheme can achieve high gain level, early saturation, and narrow flatness gain bandwidth, limited input signal power range can occur. Double-pass SHFA with a maximum pump power of 1.4 W obtained aflatness gain bandwidth of 70 nm (1530–1600 nm) [5]. The input signal was divided according to its wavelength (C-band to EDFA and L-band to RFA) in previous PHFA configurations [11, 12]. Dividing the signal according to the wavelength (C-band for EDFA and L-band for RFA) can present two different power saturation values [12]. A wide flatness gain bandwidth of 60 nm (1530–1590 nm) and an average gain level of 14 dB were observed using 800 mW of Raman pump power at 1480 nm[13]. The implementation of double-pass PHFA achieved an enhancement of 38.5
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