»ã±¨±êÌâ (Title)£ºNanowire-based hybrid integrated photonic circuits£¨»ùÓÚÄÉÃ×ÏߵĻìºÏ¼¯³É¹â×ӵ緣©

»ã±¨ÈË (Speaker)£º¸ß¿¡ ×êÑÐÔ±£¨Royal Institute of Technology£©

»ã±¨¹¦·ò (Time)£º2025Äê7ÔÂ3ÈÕ£¨ÖÜËÄ£©10:30-12:00

»ã±¨µØÖ· (Place)£ºÐ£±¾²¿G601

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Quantum computing has emerged as a transformative paradigm, offering exponential speedup for a range of complex computational challenges. Photonic systems, with their high coherence, low noise, and rapid processing speeds, are well-suited for implementing quantum information processing tasks. In this talk, I will briefly introduce the hybrid quantum integrated photonic circuits developed in our group with special focus on nanowire quantum emitters. The hybrid integration approach provides means of miniaturization to efficiently integrate all elementary building blocks and presents new methodologies specifically for an all-on-chip scheme on a photonic platform. I will also discuss our recent progress in programmable photonic circuits on the silicon photonics platform, as well as progress on a solid-state, Rydberg-exciton-based quantum simulator.