Coulomb coupling between two nanospheres trapped in a bichromatic optical tweezer

Quentin Deplano, Antonio Pontin, Andrea Ranfagni, Francesco Marino, Francesco Marin
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Abstract

Levitated optomechanics is entering the multiparticle regime, paving the way for the use of arrays of strongly coupled massive oscillators to explore complex interacting quantum systems. Here, we demonstrate the trapping of two nanospheres inside a dual optical tweezer generated by two copropagating lasers operating at different wavelengths (1064 nm and 976 nm). Due to the chromatic aberration of the tweezer optics, two focal points are created approximately 9 microns apart, each one acting as an optical trap for a silica nanoparticle. At this distance, the surface charges on the nanospheres produce a Coulomb force that couples their motion along the tweezer axis. The strong coupling regime is achieved, as evidenced by the observed avoided crossing of the normal-mode frequencies. These results highlight the potential of our experimental scheme for future studies on systems of strongly coupled oscillators, including their implementation in optical cavities, both in the classical and in quantum regime.
被困在双色光学镊子中的两个纳米球之间的库仑耦合
悬浮光机械学正在进入多粒子机制,为使用强耦合大质量振荡器阵列探索复杂的相互作用量子系统铺平了道路。在这里,我们展示了在由两个不同波长(1064 nm 和 976 nm)的共发激光器产生的双光学镊子内对双纳米球的捕获。由于镊子光学元件的色差,两个焦点相距约 9 厘米,每个焦点都是一个二氧化硅纳米粒子的光学陷阱。在这个距离上,纳米球的表面电荷产生库仑力,使它们沿着镊子轴线运动。强耦合机制得以实现,观察到的法向模式频率的避免交叉就是证明。这些结果凸显了我们的实验方案在未来强耦合振荡器系统研究中的潜力,包括在经典和量子环境下在光腔中的应用。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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