As a versatile tool for trap** and manipulating neutral particles, optical tweezers have
been studied in a broad range of fields such as molecular biology, nanotechnology, and …

Levitation of mesoscopic particles in high vacuum provides a promising platform to
investigate nanoscale thermodynamics and the boundary between the classical and …

In this paper, results of quantum calculations are presented for feedback cooling of an
optically trapped nanoparticle in the laser-shot-noise-dominant regime. We numerically …

Bridging the gap between the classical and quantum regimes has consequences not only
for fundamental tests of quantum theory, but for the relation between quantum mechanics …

Quantum mechanics, since its very beginning, has totally changed the way we understand
nature. The past hundred years have seen great successes in the application of quantum …

悬浮光力传感技术利用真空环境的光阱实现对微纳尺度机械振子的悬浮和囚禁,
将待测物理量转换为光悬浮机械振子运动参数的变化, 理论上该振子与外部环境热噪声和振动 …