GM is a novel AO-free FSO paradigm using multi-source geometric configuration encoding and active correlative decoding that shows resistance to strong turbulence (D/r0 ~5) in 1.2 m preliminary experiments.
Optical wireless communication –recent progresses and future perspectives
3 Pith papers cite this work. Polarity classification is still indexing.
3
Pith papers citing it
years
2026 3verdicts
UNVERDICTED 3representative citing papers
Plasma etch recipe produces photonic-grade diamond-on-insulator films from bonded SCD membranes and enables 5 nm resolution thickness mapping via colorimetry on standard microscope images.
Temporal Gaussian noise model reproduces burst-like SNR degradation from equalization-enhanced phase noise, enabling efficient simulation in coherent optical systems.
citing papers explorer
-
Geometric-Configuration Modulation: A Novel Free-Space Optical Communication Paradigm for $D/r_{0}\sim 5$ Turbulence Resistance
GM is a novel AO-free FSO paradigm using multi-source geometric configuration encoding and active correlative decoding that shows resistance to strong turbulence (D/r0 ~5) in 1.2 m preliminary experiments.
-
Plasma Etch Process Optimization for Photonic-Grade Diamond-on-Insulator Substrates and Thickness Evaluation using Colorimetry
Plasma etch recipe produces photonic-grade diamond-on-insulator films from bonded SCD membranes and enables 5 nm resolution thickness mapping via colorimetry on standard microscope images.
-
Modeling and Mitigation of Equalization-Enhanced Phase Noise
Temporal Gaussian noise model reproduces burst-like SNR degradation from equalization-enhanced phase noise, enabling efficient simulation in coherent optical systems.