Dynamically creating asymmetrical potential wells for nanoparticle manipulation

Optical tweezers, which are powerful tools for trapping and manipulating particles, have been widely used in many areas. However, their potential wells are typically symmetrical, which limit their capability of optical trapping and manipulation. Herein, we report an approach for dynamically creating asymmetrical potential wells, by employing variable phase gradient profiles generated by holograms. Its depth, stiffness and location of potential wells can be dynamically controlled. Moreover, the controllable transport of nanoparticle is experimentally demonstrated, which reveals that it exhibits excellent manipulation performance. Importantly, its motion path, step distance and velocity can be easily manipulated by changing its holograms, which is highly desirable in controllable transport of nanoparticles. This study offers a new tool for optical manipulation, which could largely expand the capability of conventional optical tweezers.