The seamless integration of emerging triboelectric nanogenerator (TENG) technology with
traditional wearable textile materials has given birth to the next‐generation smart textiles, ie …

Light transport in a highly multimode fiber exhibits complex behavior in space, time,
frequency, and polarization, especially in the presence of mode coupling. The newly …

Quantum networks provide the framework for quantum communication, clock
synchronization, distributed quantum computing, and sensing. Implementing large-scale …

The simultaneous advances in artificial neural networks and photonic integration
technologies have spurred extensive research in optical computing and optical neural …

The efficient transport and engineering of photonic orbital angular momentum (OAM) lie at
the heart of various related classical and quantum applications. Here, by leveraging the …

Few-mode fibers (FMFs) are promising for advancements in transmission capacity in
classical and quantum communications. However, the inherent modal crosstalk limits the …

Multiplexing multiple orbital angular momentum (OAM) modes of light has proven to be an
effective way to increase data capacity in fiber-optic communications. However, existing …

A nonlinear self-focusing material can amplify random small-amplitude phase modulations
present in an optical beam, leading to the formation of amplitude singularities commonly …

When light propagates through multimode optical fibres (MMFs), the spatial information it
carries is scrambled. Wavefront sha** reverses this scrambling, typically one spatial mode …

Multimode fiber (MMF) which supports parallel transmission of spatially distributed
information is a promising platform for remote imaging and capacity-enhanced optical …