Innovative vortex beam technology
The proposed vortex beam can carry vast amounts of information, making them ideal for dense data communication systems.
Credit: Zhipeng Yu et al.
…unleashes ultra-secure, high-capacity data transmission.
Scientists have developed a breakthrough optical technology that could dramatically enhance the capacity and security of data transmission (Fig. 1). By utilizing a new type of spatial-frequency patching metasurface that manipulates light beams, researchers have introduced what they call “super-capacity perfect vector vortex beams” (SC-PVVBs). These light beams, which possess intricate spatial and polarization characteristics, can carry vast amounts of information, making them ideal for dense data communication systems.
Conventional optical beams often have limitations in terms of data capacity due to the global phase modulation approach. However, the SC-PVVB technology overcomes these restrictions by locally patching the spatial frequency to create multiple data channels, each of which can independently store and transmit information.
The new approach enables precise control over the beam’s structure and polarization, allowing for at least 13 distinct data channels (Fig. 2). This could lead to ultra-secure and high-capacity optical communication systems.
A single geometric metasurface is used to form SC-PVVB with multidimensional modulation ability for optical encryption, enabling precise control over the beam’s morphology, polarization azimuth and ellipticity angles (left panel). A comparison between the PVVBs of existing works and our method in terms of local and total dimensions, and channels, demonstrating at least 13 distinct data channels with our approach (right panel). Credit: Zhipeng Yu et al.
One of the key innovations is the ability to control the spatial intensity and polarization of these beams on a local scale, allowing information to be embedded across three dimensions of the light beam. Researchers used a specially designed Dammann grating to generate arrays of SC-PVVBs, maximizing their data-carrying potential.
The potential applications of this technology go beyond data transmission, with implications for optical encryption, secure communications, and even particle manipulation. With a capacity to handle large data volumes while ensuring robust security, SC-PVVBs represent a significant advancement in optical information technology, paving the way for future innovations in communication and encryption systems.
Journal: eLight
DOI: 10.1186/s43593-024-00077-3
Article Title: A spatial-frequency patching metasurface enabling super capacity perfect vector vortex beams
Media Contact
All latest news from the category: Information Technology
Here you can find a summary of innovations in the fields of information and data processing and up-to-date developments on IT equipment and hardware.
This area covers topics such as IT services, IT architectures, IT management and telecommunications.
Newest articles
Tiny dancers: Scientists synchronise bacterial motion
Researchers at TU Delft have discovered that E. coli bacteria can synchronise their movements, creating order in seemingly random biological systems. By trapping individual bacteria in micro-engineered circular cavities and…
Primary investigation on ram-rotor detonation engine
Detonation is a supersonic combustion wave, characterized by a shock wave driven by the energy release from closely coupled chemical reactions. It is a typical form of pressure gain combustion,…
New bioprinting technique creates functional tissue 10x faster
The novel high-throughput-bioprinting technique opens the door for tissue fabrication with high cell density at scale. Three-dimensional (3D) printing isn’t just a way to produce material products quickly. It also…