Exciting research from Finland!
"Light-based optical logic gates operate much faster than their electronic counterparts and could be crucial for meeting the ever-growing demand for more efficient and ultrafast data processing and transfer. A new type of “optical chirality” logic gate developed by researchers at Aalto University works about a million times faster than existing technologies. ...
Optical chirality, which is defined by left-handed and right-handed circularly polarized light, shows great promise for fundamental research and applications such as quantum technologies, chiral nonlinear optics, sensing, imaging and the emerging field of “valleytronics”. ..."
Optical chirality, which is defined by left-handed and right-handed circularly polarized light, shows great promise for fundamental research and applications such as quantum technologies, chiral nonlinear optics, sensing, imaging and the emerging field of “valleytronics”. ..."
From the abstract:
"The ever-growing demand for faster and more efficient data transfer and processing has brought optical computation strategies to the forefront of research in next-generation computing. Here, we report a universal computing approach with the chirality degree of freedom. By exploiting the crystal symmetry–enabled well-known chiral selection rules, we demonstrate the viability of the concept in bulk silica crystals and atomically thin semiconductors and create ultrafast (<100-fs) all-optical chirality logic gates (XNOR, NOR, AND, XOR, OR, and NAND) and a half adder. We also validate the unique advantages of chirality gates by realizing multiple gates with simultaneous operation in a single device and electrical control. Our first demonstrations of logic gates using chiral selection rules suggest that optical chirality could provide a powerful degree of freedom for future optical computing."
Chirality logic gates (open access)
Fig. 1. Illustration of the chirality logic gate and its concept universality in the selection of materials and optical processes.
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