Thulium-doped fluorotellurite glass fibers for broadband S-band amplifiers

We demonstrated broadband S-band (1460-1530 nm) amplification in Tm3+-doped fluorotellurite glass fibers (TDFTFs) by using a 1400/1570 nm dual-wavelength pump technique. TDFTFs based on TeO2-BaF2-Y3O3 (TBY) glass were fabricated by using a rod-in-tube method. For an input signal power of 0 dBm (or 1 mW), a broadband positive net gain ranging from <1440 nm to 1546 nm was achieved in a 1.55-m-long TDFTF with a Tm3+ doping concentration of similar to 4000 ppm, as the pump powers of the 1400 nm and 1570 nm lasers were 1.7 W and 0.14 W, respectively. The corresponding bandwidth for a net gain of >20dB was similar to 66 nm (1458-1524 nm), and the measured saturated output power was similar to 24.84 dBm at 1490 nm. In addition, numerical simulation was performed by using the parameters of the TDFTFs and the pump lasers, and the noise figure was calculated to be <5.6 dB in the S band. Our results showed that the TDFTFs were promising gain media for constructing efficient broadband S-band fiber amplifiers. (C) 2022 Optica Publishing Group

Automated summary

We demonstrated broadband amplification in Tm3+-doped fluorotellurite glass fibers using a 1400/1570 nm dual-wavelength pump technique. The TDFTFs showed positive net gain in the S-band from <1440 nm to 1546 nm, making them promising gain media for constructing efficient broadband S-band fiber amplifiers.