AIP Publishing is honored to name Prof. Ranjan Singh, an internationally renowned pioneer in photonics, spintronics, and ...

The scientists said that the new transistor could be integrated into chips that could one day perform up to 40% faster than the best existing silicon processors made by U.S. companies like Intel.

Chip-based system for terahertz waves could enable more efficient, sensitive electronics Researchers developed a scalable, low-cost device that can generate high-power terahertz waves on a chip ...

Topological refers to physical features in the silicon that help steer terahertz waves, and beamformer refers to the purpose of the chip: forming terahertz waves into directed beams.

(The Conversation is an independent and nonprofit source of news, analysis and commentary from academic experts.) Ranjan Singh, University of Notre Dame (THE CONVERSATION) Imagine a future where ...

Terahertz waveguides based on topological photonics are expected to solve the problem of on-chip transmission efficiency, and the second part of this paper also focuses on the current hot research ...

Scientists on the hunt for compact and robust sources of multicolored laser light have generated the first topological frequency comb. Their result, which relies on a small silicon nitride chip ...

In this article, we propose on-chip terahertz (THz) domino waveguide array structures that can enable the topological effect and enhance the robustness of THz transmission. THz topological effect ...

Terahertz photonics is an emerging field with great potential for biosensing, nondestructive imaging or detection, and next-generation communication technologies (beyond 6G). However, existing ...

Terahertz Topological Photonics for On-Chip Communication Web of Science's Hot Paper by Assoc Prof Ranjan Singh The terahertz (THz) frequency region, lying at the convergence of electronics and ...