Three-dimensional (3D) particle focusing in microfluidics is a fundamental capability with a wide range of applications, such as on-chip flow cytometry, where high-throughput analysis at the ...

Tomographic Particle Image Velocimetry (Tomo-PIV) is a 3D particle image velocimetry technology combined with computed tomography (CT), which can realize full-field quantitative measurement of spatial ...

Shake-The-Box (STB) is a novel time-resolved 3D Lagrangian particle tracking method for measuring densely seeded flows. The STB algorithm has been developed at the department of Experimental Methods ...

The LaVision FlowMaster Time-Resolved Tomographic Particle Image Velocimetry (PIV) system offers high-resolution, high-speed tomographic particle image velocimetry and 3D particle tracking for ...

Tomographic Particle Image Velocimetry (Tomo-PIV) is a 3D particle image velocimetry technology combined with computed tomography (CT), which can realize full-field quantitative measurement of spatial ...

The standard method of mixing biological and chemical compounds in test tubes has been shaken up in recent years by the emergence of microfluidics. This innovative field combines principles from micro ...

Abstract: Tomographic particle image velocimetry (Tomo-PIV) is a typical volumetric measurement technique for complex flows. To compute the instantaneous velocity field, the voxel intensity ...

The Tomographic Particle Image Velocimetry method is a relatively new extension of the PIV measurement technique with the specific ability to determine three-dimensional velocity vector fields [1].

No refutations from CERN, IEEE, CPRIT, PAS, or scientists—despite press releases reaching over 300 million people worldwide. 3D-Flow & 3D-CBS can save billions of euro and halve cancer deaths.