Highly-resolved three-dimensional velocity measurements via Dual-Plane Stereo Particle Image Velocimetry (DSPIV) in turbulent flows

Physics & Astronomy

• particle image velocimetry 94%
• velocity measurement 88%
• turbulent flow 83%
• vorticity 44%
• tensors 33%
• gradients 29%
• error analysis 17%
• field of view 13%
• strain rate 12%
• energy dissipation 11%
• kinetic energy 11%
• spatial resolution 11%
• cameras 11%
• turbulence 11%
• color 10%
• configurations 7%
• performance 6%

Engineering & Materials Science

• Velocity measurement 92%
• Turbulent flow 90%
• Tensors 53%
• Vorticity 20%
• Kinetic energy 18%
• Error analysis 16%
• Strain rate 16%
• Turbulence 16%
• Energy dissipation 15%
• Calibration 13%
• Color 12%
• Cameras 12%

Earth & Environmental Sciences

• particle image velocimetry 100%
• turbulent flow 84%
• error analysis 16%
• field of view 16%
• energy dissipation 16%
• strain rate 14%
• vorticity 14%
• kinetic energy 14%
• spatial resolution 11%
• turbulence 11%
• calibration 10%
• rate 9%
• method 6%