共振器フリーで光の伝搬モードを制御可能な新手法の開発に成功 ～超蛍光の量子性の解明に向けて大きく前進～

20206-06-16 茨城大学

図1　(a)光ピンセットレーザーによって捕獲された原子の模式図、(b)本手法によって、周期的に励起された原子集団の模式図

＜関連情報＞

• https://www.ibaraki.ac.jp/news/n/2026/06/16014945.html
• https://journals.aps.org/prl/abstract/10.1103/cbxq-8n45

熱ガスからの超蛍光のキャビティフリーモード制御 Cavity-Free Mode Control of Superfluorescence from Thermal Gas

H. Maeda and K. Kitano
Physical Review Letters  Published: 11 June, 2026
DOI: https://doi.org/10.1103/cbxq-8n45

Abstract

Transverse-mode control of light has traditionally relied on optical cavities, whereas recent cavity-free approaches based on periodically arranged cold atoms that exploit collective radiation have attracted increasing attention. Here, we demonstrate a new cavity-free method applicable to thermal gases. Using crossed femtosecond laser pulses, we excite rubidium atoms and observe superfluorescence (SF) emitted during an ultrafast relaxation process. We demonstrate successful control of the transverse modes of SF when the interference fringes formed by the crossed beams are resonant with half the SF wavelength. This ultrafast, cavity-free approach provides a versatile playground for studying interactions between quantum many-body systems and well-defined electromagnetic fields in free space.