S-Band Gain Improvement Using a Thulium–Aluminum Co-Doped Photonic Crystal Fiber Amplifier

Abstract: An extended method for gain and noise figure enhancement in the S-band using a thulium-doped photonic crystal fiber amplifier (TD-PCFA) is proposed and shown by numerical simulation. The principle behind the enhancement is the suppression of unwanted amplified spontaneous emission (ASE) using the PCF structure. This proposed PCF achieves the intended band-pass by doping the cladding with high index material and realizes appropriate short and long cut-off wavelengths by enlarging the air-holes surrounding the d… Show more

“…A thermo-optic based bandwidth variable filter has been demonstrated theoretically and experimentally in [25]. In addition, bandpass filters using index-guiding holey PCF was numerically designed by changing the parameters of the core, background and air holes [26], [27]. Liu et al demonstrated the fabrication of a tunable bandpass filter by combining the bend loss edge of an all-solid PBGF and a Bragg fiber [28].…”

Design of Single-Band Bandpass Filter Using Photonic Bandgap Fiber by Suppressing Core Modes in Higher Order Bandgaps

“…A thermo-optic based bandwidth variable filter has been demonstrated theoretically and experimentally in [25]. In addition, bandpass filters using index-guiding holey PCF was numerically designed by changing the parameters of the core, background and air holes [26], [27]. Liu et al demonstrated the fabrication of a tunable bandpass filter by combining the bend loss edge of an all-solid PBGF and a Bragg fiber [28].…”

Design of Single-Band Bandpass Filter Using Photonic Bandgap Fiber by Suppressing Core Modes in Higher Order Bandgaps

S + C double-band flattened gain hybrid optical amplifier [RAMAN + thulium-doped photonic crystal fiber amplifier (TD-PCFA)] for super-dense wavelength division multiplexing system

Optimization of super-Gaussian thulium-doped fiber amplifier for S-band multimode division multiplexing