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Exploring the Frontier of Integrated Photonic Logic Gates: Breakthrough Designs and Promising Applications

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Udgivet i:Technologies vol. 13, no. 8 (2025), p. 314-350
Hovedforfatter: Kazanskiy, Nikolay L
Andre forfattere: Oseledets, Ivan V, Nikonorov, Artem V, Chertykovtseva, Vladislava O, Khonina, Svetlana N
Udgivet:
MDPI AG
Fag:
Parallel processing
Quantum computing
Logic circuits
Computation
Technological change
Data processing
Nanofabrication
Electronic circuits
Nonlinear optics
Communication
Logic
Signal processing
Circuits
Design
Information processing
Energy efficiency
Phase change materials
Photonics
Artificial intelligence
Graphene
Light speed
Optics
Gates
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Resumen:The increasing demand for high-speed, energy-efficient computing has propelled the development of integrated photonic logic gates, which utilize the speed of light to surpass the limitations of traditional electronic circuits. These gates enable ultrafast, parallel data processing with minimal power consumption, making them ideal for next-generation computing, telecommunications, and quantum applications. Recent advancements in nanofabrication, nonlinear optics, and phase-change materials have facilitated the seamless integration of all-optical logic gates onto compact photonic chips, significantly enhancing performance and scalability. This paper explores the latest breakthroughs in photonic logic gate design, key material innovations, and their transformative applications. While challenges such as fabrication precision and electronic–photonic integration remain, integrated photonic logic gates hold immense promise for revolutionizing optical computing, artificial intelligence, and secure communication.
ISSN:2227-7080
DOI:10.3390/technologies13080314
Fuente:Materials Science Database