2D Spatially-Resolved Depth-Section Microfluidic Flow Velocimetry Using Dual Beam OCT Jonathan Hallam Ralph Tatam Evangelos Rigas Tom Charrett 10.17862/cranfield.rd.11522517.v2 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> 2020-04-27 14:33:42 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