Liquid-crystal platform overcomes optical losses in photonic circuits

Liquid-crystal platform overcomes optical losses in photonic circuits

Photonic circuits, which manipulate light to perform various computational tasks, have become essential tools for a range of advanced technologies—from quantum simulations to artificial intelligence. These circuits offer a promising way to process information with minimal energy loss, especially in fields like quantum computing where complex systems are simulated to test theories of quantum mechanics.

Tech: MeitY supports PIC research

DST implementing National Quantum Mission The Ministry of Electronics and IT (MeitY) is supporting research in Photonic Integrated Circuits (PICs) based on various material platforms such as Silicon, Lithium Niobate, Diamond, Polymer or Composite and its packaging technology. Further, the Department of Science and Technology (DST) is implementing the National Quantum Mission. Under the Mission, […] Source

New Waveguide Device Protects Photonic Quantum Computers From Errors

Eddie Gonzales Jr. – MessageToEagle.com – Physicists from the University of Rostock, along with researchers from the University of Southern California, the University of Central Florida, Pennsylvania State University, and Washington University in Saint Louis, have developed a new mechanism to protect optical entanglement in quantum photonics. A judiciously designed arrangement of coupled waveguides allows […]

Liquid-crystal platform overcomes optical losses in photonic circuits - Tech and Science Post

Photonic circuits, which manipulate light to perform various computational tasks, have become essential tools for a range of advanced technologies—from quantum simulations to artificial intelligence. These circuits offer a promising way to process information with minimal energy loss, especially in fields like quantum computing where complex systems are simulated to test theories of quantum mechanics. However, the growth in circuit size and comp…

Liquid-Crystal Breakthrough Overcomes Optical Losses In Photonic Circuits For Scalable Quantum Computing

Researchers at the University of Naples have developed a liquid-crystal platform that addresses optical losses in photonic circuits, enabling scalable systems for quantum computing and artificial intelligence with high mode capacity.