Design of photonic crystal fiber for long-distance transmission of orbital angular momentum

Abstract: In this paper, a new photonic crystal fiber (PCF) for long-distance transmission of orbital angular momentum (OAM) is proposed. The rectangular air holes are distributed in the cladding and a circular air hole is distributed in the core. The designed PCF can support 88 OAM modes over S + C + L + U wavelength band. The characteristics of the PCF are analyzed by using the finite element method systematically. The results show that the nonlinear coefficient is lower than 2.8 km−1·W−1 over S + C + L + U wavelength… Show more

“…However, the previous reports of OAM mode multiplexing in multi-core fiber are in optical or radio frequency rather than THz band, which does not maximize the capacity owing to the lacking of the spectra expanding [5,6,[10][11][12][13][14][15]. Moreover, the fibers for THz OAM transmission have rarely been reported and are all featured single-core with few numbers of channels and relatively narrow operating bandwidth, hence limited capacity enlargement [16][17][18][19][20][21][22].…”

Terahertz fiber with multi-concentric ring cores for OAM modes propagation

“…However, the previous reports of OAM mode multiplexing in multi-core fiber are in optical or radio frequency rather than THz band, which does not maximize the capacity owing to the lacking of the spectra expanding [5,6,[10][11][12][13][14][15]. Moreover, the fibers for THz OAM transmission have rarely been reported and are all featured single-core with few numbers of channels and relatively narrow operating bandwidth, hence limited capacity enlargement [16][17][18][19][20][21][22].…”

Terahertz fiber with multi-concentric ring cores for OAM modes propagation

A novel nested three-ring-core photonic crystal fiber for OAM transmission