Add to ORKGSound can levitate objects of different sizes and materials through air, water and tissue. This allows us to manipulate cells, liquids, compounds or living things without touching or contaminating them. However, acoustic levitation has required the targets to be enclosed with acoustic elements or had limited manoeuvrability. Here we optimize the phases used to drive an ultrasonic phased array and show that acoustic levitation can be employed to translate, rotate and manipulate particles using even a single-sided emitter. Furthermore, we introduce the holographic acoustic elements framework that permits the rapid generation of traps and provides a bridge between optical and acoustical trapping. Acoustic structures shaped as tweezers, twister...
Acoustic tweezers use sound radiation forces to manipulate matter without contact. They provide uniq...
Recent advances in high-speed acoustic holography have enabled levitation-based volumetric displays ...
Holographic techniques are fundamental to applications such as volumetric displays, high-density dat...
Incluye material complementarioSound can levitate objects of different sizes and materials through a...
Sound can levitate objects of different sizes and materials through air, water and tissue. This allo...
Objects in an acoustic field are subjected to acoustic radiation forces, which depend on the objects...
Acoustic levitation technology is the use of ultrasound to form standing waves. Sound is a form of m...
Sound waves are mechanical waves that, when concentrated, are able to produce acoustic radiation for...
Acoustic levitation provides a means to achieve contactless manipulation of fragile materials and bi...
Acoustic levitation provides a means to achieve contactless manipulation of fragile materials and bi...
<div><p>The essence of levitation technology is the countervailing of gravity. It is known that an u...
Thesis (Ph.D.)--University of Washington, 2018Acoustic waves can apply radiation forces to trap and ...
Acoustic levitation permits non-contacting particle manipulation. The position and orientation of th...
Acoustic tweezers can levitate and manipulate a single object or objects through air and water. Comp...
This thesis contains 9 chapters making a total of 205 pages including articles. The articles are men...
Acoustic tweezers use sound radiation forces to manipulate matter without contact. They provide uniq...
Recent advances in high-speed acoustic holography have enabled levitation-based volumetric displays ...
Holographic techniques are fundamental to applications such as volumetric displays, high-density dat...
Incluye material complementarioSound can levitate objects of different sizes and materials through a...
Sound can levitate objects of different sizes and materials through air, water and tissue. This allo...
Objects in an acoustic field are subjected to acoustic radiation forces, which depend on the objects...
Acoustic levitation technology is the use of ultrasound to form standing waves. Sound is a form of m...
Sound waves are mechanical waves that, when concentrated, are able to produce acoustic radiation for...
Acoustic levitation provides a means to achieve contactless manipulation of fragile materials and bi...
Acoustic levitation provides a means to achieve contactless manipulation of fragile materials and bi...
<div><p>The essence of levitation technology is the countervailing of gravity. It is known that an u...
Thesis (Ph.D.)--University of Washington, 2018Acoustic waves can apply radiation forces to trap and ...
Acoustic levitation permits non-contacting particle manipulation. The position and orientation of th...
Acoustic tweezers can levitate and manipulate a single object or objects through air and water. Comp...
This thesis contains 9 chapters making a total of 205 pages including articles. The articles are men...
Acoustic tweezers use sound radiation forces to manipulate matter without contact. They provide uniq...
Recent advances in high-speed acoustic holography have enabled levitation-based volumetric displays ...
Holographic techniques are fundamental to applications such as volumetric displays, high-density dat...