References regarding specific topics

General

• Absil, L.H.J. (1995) Analysis of the Laser Doppler Measurement Technique for Application in Turbulent Flows, Dissertation Delft University of Technology, ISBN 90-5623-017-4, The Netherlands

Velocity bias

• Barnett, D.O. and Bentley, H.T. (1974) Statistical Bias of Individual Realization Velocimeters, In Proc. of the Second Intl Workshop on Laser Velocimetry, Vol. 1, pp.428-444.
• Edwards, R.V. (1987) Report of the Special Panel on Statistical Particle Bias Problems in Laser Doppler Anemometry, Journal of Fluids Engineering, 109, pp.89-93.
• Hoesel, W. and Rodi, W. (1977) New Biasing Elimination Method for Laser Doppler Velocimeter Counter Processing, Rev. Sci. Instrum., 48(7), pp.910-919.
• McDougall, T.J. (1980) Bias Correction for Individual Realization Laser Anemometer Measurements, J. Phys. E:Sci. Instrum., 13, pp.53-60.
• McLaughlin, D.K. and Tiederman, W.G. (1973) Biasing Correction for Individual Realization of Laser Anemometer Measurements in Turbulent Flows, Phys. Fluids, Vol.16, 12, pp.2082-2088.
• Petrie, H.L., Samimy, M., and Addy, A.L. (1988) Laser Doppler Velocity Bias in Separated Turbulent Flows, Exp. Fluids, 6, pp. 80-88.
• Tummers, M.J., Absil, L.H.J., and Passchier, D.M. (1992) An Experimental Investigation of Velocity Bias in a Turbulent Flow, In Proc 6th Intl Symp on Applications of Laser Techniques to Fluid Mechanics, pp.5.4.1-7.
• Winter, A.R., Graham, L.J.W., and Bremhorst, K. (1991) Effects of Time Scales on Velocity Bias in LDA Measurements using Sample and Hold Processing, Exp. Fluids, 11, pp.147-152.
• Johnson, D.M., Bachalo, W.D., and Moddarres, D., (1976) Laser Velocimetry Applied to Transonic and Supersonic Aerodynamics, AGARD CP-193, paper 3, pp.1-12
• Meyers, J.F. (1988) Laser Velocimeter Data Acquisition and Real Time Processing using a Mini Computer, In Proc 4th Intl Symp on Applications of Laser Techniques to Fluid Mechanics, pp.7.20.1-5.
• George, W.K. (1975) Limitations to Measuring Accuracy Inherent in the Laser Doppler Signal, In Proc. LDA Symp, Copenhagen, pp.115-137

Spatial Averaging

• Luchik, T.S. and Tiederman, W.G. (1985) Effect of Spanwise Probe Volume Length on Laser Velocimeter Measurements in Wall Bounded Turbulent Flows, Exp. Fluids, 3, pp.339-341.
• Johnson, P.L. and Barlow, R.S. (1989) Effect of Measuring Volume Length on Two-Component Laser Velocimeter Measurements in a Turbulent Boundary Layer, Exp. Fluids, 8, pp.137-144.
• Durst, F., Martinuzzi, R., Sender, J., and Thevenin, D. (1994) LDA Measurements of Mean Velocity, RMS-Values and Higher Order Moments of Turbulence Intensity Fluctuations in Flow Fields with Strong Velocity Gradients, In Proc 7th Intl Symp on Applications of Laser Techniques to Fluid Mechanics, pp.5.1.1-6.
• Kreid, D.k. (1974) Laser Doppler Velocimeter Measurements in a Non Uniform Flow: Error Estimates, Applied Optics, Vol.13, no.8, pp.1872-1881.
• Leprince, F. and Riethmuller (1985) Skin Friction Determination by LDA Measurements in a Viscous Sublayer: Analysis of Systematic Errors, VKI Techical Note 156.

Random Sampling

Slotted Correlation Method and Spectral Estimation

• Gaster, M. and Roberts, J.B. (1975) Spectral Analysis of Randomly Sampled Signals, Journal of the Institute of Mathematics and its Applications, 15, pp.195-216.
• Gaster, M. and Roberts, J.B. (1977) The Spectral Analysis of Randomly Sampled Records by a Direct Transform, Proc Royal Society, 354, pp.27-58.
• Mayo, W.T. (1974) A Discussion of Limitations and Extensions of Power Spectrum Estimation with Burst Counter LDV Systems, In Proc of the 2nd Intl Workshop on Laser Velocimetry, pp. 90-104, Perdue University.
• Maanen, van H.R.E. and Tummers, M.J. (1996) Estimation of the Auto Correlation Function of Turbulent Velocity Fluctuations using the Slotting Technique with Local Normalisation, Proc 8th Intl Symp on Applications of Laser Techniques to Fluid Mechanics, pp. 36.4.1-6.

Three-component LDA

• Brown, J.L. (1989) Geometric Bias and Time Coincidence in 3-Dimensional Laser Doppler Velocimeter Systems, Exp. Fluids, 7, pp.25-32.
• Meyers, J.F., (1985) The Elusive Third Component, In Proc 4th Intl Symp on Applications of Laser Techniques to Fluid Mechanics, pp. 7.20.1-5.
• Morrison, G.L., Johnson, M.C., Swan, D.H., and DeOtte, R.E. (1990) Advantages of Orthogonal and Non-Orthogonal 3-D LDA Systems, In Proc 5th Intl Symp on Applications of Laser Techniques to Fluid Mechanics, pp. 25.2.1-6.
• Boutier, A., Pagan, D., and Soulevant, D. (1985) Measurements Accuracy with 3D Laser Velcoimetry, TP 171, ONERA.

Amplitude Bias

• Durao, D.F.G. and Whitelaw, J.H. (1979) Relationship between Velocity and Signal Quality in Laser Doppler Anemometry, J. Phys. E:Sci. Instrum., 12, pp.27-50.

Combining LDA and CARS

• Fujii S; Gomi M; Eguchi K; Yamaguchi S; Jin Y (1984) Time resolved LDV and CARS measurements in a premixed reacting flow. Combust. Sci. Technol. 36:211-226
• Goss L P; Trump D D; Lynn W F; Chen T H; Schmoll W J; Roquemore W M (1989) Second-generation combined CARS-LDV Instrument for simultaneous temperature and velocity measurements in combusting flows. Rev. Sci. Instrum. 60(4):638-645
• Tummers M.J., van Veen E.H. George N., Rodink, R., and Hanjalic, K. (2004) Measurement of Velocity-Temperature Correlations in a Turbulent Diffusion Flame, Experiments in Fluids, 37, pp. 364-374.