A surprising experiment opens the path to new particle manipulation methods

A surprising experiment opens the path to new particle manipulation methods
(a-b) Heavy particles move towards antinodes of a submerged vibrating plate. (c-d) Single particles and (e-f) a swarm of particles move on pre-defined trajectories on the plate by playing carefully-chosen musical notes. Credit: Kourosh Latifi

Researchers at Aalto University have discovered a surprising phenomenon that changes how we think about how sound can move particles. Their experiment is based on a famous experiment recognisable from high school science classrooms worldwide—the Chlandni Plate experiment, where particles move on a vibrating surface. The experiment was first performed in 1787 by Ernst Chladni, who is now known as the father of acoustics. Chladni's experiment showed that when a plate is vibrating at a certain frequency, heavy particles move towards the regions with less vibration, called nodal lines. This experiment has been extensively repeated during the centuries since, and has shaped the common understanding of how heavy particles move on a vibrating plate. But researchers at Aalto University have now shown a case where heavy particles move towards the regions with more vibrations, or antinodes. "This is a surprising result, almost a contradiction to common beliefs," says Professor Quan Zhou.

The researchers installed a silicon plate on a piezoelectric transducer and submerged it into water. They spread sub-mm glass spheres on the plate, and vibrated the plate with signals of different frequencies, creating waves on the plate. The researchers were then surprised to observe that the move towards the antinodes, forming what they have dubbed "inverse Chladni patterns".

An interesting aspect is that the system can create predictable motion at a wide range of frequencies. "We can move particles at almost any , and we do not rely on the resonance of the plate", says Zhou. "This gives us a lot of freedom in motion contro.l"

Using the newly discovered phenomenon, the researchers were able to precisely control the motion of single particles and a swarm of particles on the submerged plate. In one example, they moved a particle in a maze on the , wrote words consisting of separate letters, and merged, transported and separated a swarm of particles by playing different musical notes.

"Many procedures in and microsystem assembly require the ability to move and manipulate small particles easily. Using just a single actuator to do all these different things, we are opening a path to new particle handling techniques", says Zhou. "Additionally, the method can inspire the future factory-on-a-chip systems."

Unexpected result from acoustics experiment could have applications in biomedical and microsystems research. Credit: Aalto University

The study is published today in Physical Review Letters.


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More information: Kourosh Latifi et al. Motion of Heavy Particles on a Submerged Chladni Plate, Physical Review Letters (2019). DOI: 10.1103/PhysRevLett.122.184301 , journals.aps.org/prl/abstract/ … ysRevLett.122.184301
Journal information: Physical Review Letters

Provided by Aalto University
Citation: A surprising experiment opens the path to new particle manipulation methods (2019, May 10) retrieved 16 July 2019 from https://phys.org/news/2019-05-path-particle-methods.html
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