Descharmes Nicolas, Dharanipathy Ulagalandha Perumal, Diao Zhaolu, Tonin Mario, Houdré Romuald
Institut de Physique de la Matière Condensée, École Polytechnique Fédérale de Lausanne (EPFL), Station 3, CH-1015 Lausanne, Switzerland.
Phys Rev Lett. 2013 Mar 22;110(12):123601. doi: 10.1103/PhysRevLett.110.123601. Epub 2013 Mar 20.
The optomechanical coupling between a resonant optical field and a nanoparticle through trapping forces is demonstrated. Resonant optical trapping, when achieved in a hollow photonic crystal cavity is accompanied by cavity backaction effects that result from two mechanisms. First, the effect of the particle on the resonant field is measured as a shift in the cavity eigenfrequency. Second, the effect of the resonant field on the particle is shown as a wavelength-dependent trapping strength. The existence of two distinct trapping regimes, intrinsically particle specific, is also revealed. Long optical trapping (>10 min) of 500 nm dielectric particles is achieved with very low intracavity powers (<120 μW).
通过俘获力实现了共振光场与纳米粒子之间的光机械耦合。当在中空光子晶体腔中实现共振光俘获时,会伴随着由两种机制引起的腔反作用效应。首先,粒子对共振场的影响表现为腔本征频率的偏移。其次,共振场对粒子的影响表现为与波长相关的俘获强度。还揭示了两种不同的俘获机制的存在,这本质上是粒子特有的。在非常低的腔内功率(<120 μW)下,实现了对500 nm介电粒子长达10分钟以上的光俘获。
