Optomechanically induced optical trapping system based on photonic crystal cavities

Author:

Monterrosas-Romero ManuelORCID,Alavi Seyed K.ORCID,Koistinen Ester M.,Hong SungkunORCID

Abstract

Optical trapping has proven to be a valuable experimental technique for precisely controlling small dielectric objects. However, due to their very nature, conventional optical traps are diffraction limited and require high intensities to confine the dielectric objects. In this work, we propose a novel optical trap based on dielectric photonic crystal nanobeam cavities, which overcomes the limitations of conventional optical traps by significant factors. This is achieved by exploiting an optomechanically induced backaction mechanism between a dielectric nanoparticle and the cavities. We perform numerical simulations to show that our trap can fully levitate a submicron-scale dielectric particle with a trap width as narrow as 56 nm. It allows for achieving a high trap stiffness, therefore, a high Q-frequency product for the particle’s motion while reducing the optical absorption by a factor of 43 compared to the cases for conventional optical tweezers. Moreover, we show that multiple laser tones can be used further to create a complex, dynamic potential landscape with feature sizes well below the diffraction limit. The presented optical trapping system offers new opportunities for precision sensing and fundamental quantum experiments based on levitated particles.

Funder

Carl-Zeiss-Stiftung

Center for Integrated Quantum Science and Technology

Universität Stuttgart

Publisher

Optica Publishing Group

Subject

Atomic and Molecular Physics, and Optics

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