A large cheek cell (~60 microns in size) suspended in water is lifted and completely flipped over from one side to the other. (Yellow false color)
|
Using a custom flow chip, a sample of mixed small and large beads is flowed in the top channel and the large beads are selectively 'sorted' into the bottom channel due to passive interaction with an established pattern of traps. (Green false color)
|
Multiple optical traps are used to grab several sperm cell and move them away from
an epithelal cell. (Orange false color)
|
A'vortex' optical trapping mode is used to rotate small beads (~500 nm in
size) in a circle. (Blue false color)
|
Point-and-click laser tweezers trapping all on-screen objects
|
Demo of the BioRyx 200 software in action where mulitple beads (~2 microns in size)
are captured by optical traps with click-and-drag mouse movement in real time.
(Screen capture- low resolution)
|
Using three-dimensional real-time trapping to move one trapped object over
another
|
Defining multiple paths that move trapped objects in three dimensions
|
Forming a group of objects and moving them together in real time
|
Defining objects to move along path as a group
|
|
|
