10.17862/cranfield.rd.11522517.v2 Jonathan Hallam Jonathan Hallam Ralph Tatam Ralph Tatam Evangelos Rigas Evangelos Rigas Tom Charrett Tom Charrett 2D Spatially-Resolved Depth-Section Microfluidic Flow Velocimetry Using Dual Beam OCT Cranfield Online Research Data (CORD) 2020 Optical Coherence Tomography OCT Interferometry microfluidics flow measurement particle image velocimetry PIV Biomedical Instrumentation Engineering Instrumentation Flow Analysis Microtechnology Photodetectors, Optical Sensors and Solar Cells 2020-04-27 14:33:42 Dataset https://cord.cranfield.ac.uk/articles/dataset/2D_Spatially-Resolved_Depth-Section_Micro_uidic_Flow_Velocimetry_Using_Dual_Beam_OCT/11522517 Data and associated figures and supplementary materials for '2D Spatially-Resolved Depth-Section Microfluidic Flow Velocimetry Using Dual Beam OCT' published in Micromachines special edition 4th Conference on Microfluidic Handling Systems 2-4th October 2019.<div><br></div><div>Update: 27/04/2020. Added 'requirements.txt' listing exact python packages required and clarified 'readme.txt'.</div>