A novel laser Doppler anemometer (LDA) for high-accuracy turbulence measurements
Mohd Rusdy Yaacob, Rasmus Korslund Schlander, Preben Buchhave, and Clara Marika Velte

TL;DR
This paper introduces a new laser Doppler anemometer with enhanced accuracy and dynamic range, utilizing advanced hardware and software for improved turbulence measurements, validated through experiments on a turbulent jet.
Contribution
A novel LDA design with transparent operation and flexible signal processing that outperforms traditional hardware-based systems in turbulence measurement accuracy and range.
Findings
Measured velocity profiles agree with previous studies.
Turbulent kinetic energy spectra follow expected -5/3 power law.
Enhanced measurement reliability across various turbulence intensities.
Abstract
High accuracy and dynamic range have been some of the most prominent challenges when it comes to fine-scale turbulence measurements. The current commercial LDA processors, which perform the signal processing of Doppler bursts directly using hardware components, are essentially black boxes and in particular are renown for suffering from practical limitations that reduce the measurement reliability and accuracy. A transparently functioning novel LDA, utilizing advanced technologies and up-to-date hardware and software has therefore been developed to enhance the measurement quality and the dynamic range. In addition, the self-developed software comes with a highly flexible functionality for the signal processing and data interpretation. The LDA setup and the combined forward/side scattering optical alignment (to minimize the effective measuring volume) are described first, followed by a…
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