Three-Dimensional Trapping and Manipulation of a Mie Particle by Hybrid Acoustic Focused Petal Beams

Abstract: Acoustic manipulations of microparticles have significant implications in physics, chemistry, biology, and biomedicine. For large Mie particles, both the scattering force and the gradient force affect the trapping and manipulation behaviors, and thus, a passive acoustic tweezer (AT) for three-dimensionally manipulating a Mie particle remains challenging. Here, a passive AT based on a hybrid acoustic artificial plate is proposed to generate a hybrid acoustic focused petal beam (HAFPB) for capturing and manipula… Show more

“…Kremer et al [19] used the Canny algorithm to detect the motion of suspended droplets and performed kinematic analysis. However, levitated objects are much smaller than the half-wavelength of acoustic waves [20][21][22][23][24], usually between a few hundred microns and a few millimeters, and occupy fewer pixels in the image [25]. Also, suspended objects are located differently within the field of view and exhibit considerable spatial span.…”

Contactless weighing method based on deep learning and acoustic levitation

“…Kremer et al [19] used the Canny algorithm to detect the motion of suspended droplets and performed kinematic analysis. However, levitated objects are much smaller than the half-wavelength of acoustic waves [20][21][22][23][24], usually between a few hundred microns and a few millimeters, and occupy fewer pixels in the image [25]. Also, suspended objects are located differently within the field of view and exhibit considerable spatial span.…”

Contactless weighing method based on deep learning and acoustic levitation

Acoustic dark lattices generated by composite spiral plates for multi-particle trapping

Active particle manipulation with valley vortex phononic crystal