Study on noises influencing the accuracy of CNC machine straightness measurements methods based on beam position detection
More details
Hide details
Faculty of Electronics, Wroclaw University of Science and Technology, Wroclaw, Poland
Submission date: 2020-04-03
Acceptance date: 2020-07-07
Online publication date: 2020-09-25
Publication date: 2020-09-25
Journal of Machine Engineering 2020;20(3):76–84
CHEN B., CHENG L., YAN L., ZHANG E., LOU Y., 2017, A Heterodyne Straightness and Displacement Measuring Interferometer with Laser Beam Drift Compensation for Long-Travel Linear Stage Metrology, Rev. Sci. Instrum., 88, 035114.
KUANG C., HONG E., FENG Q., ZHANG B., ZHANG Z., 2007, A Novel Method to Enhance the Sensitivity for Two-Degrees-of-Freedom Straightness Measurement, Meas. Sci. Technol., 18, 3795–3800.
YUBIN H., KUANG C.F, WEI S., SHUJITE L., 2018, Low Cost, Compact 4-DOF Measurement System with Active Compensation of Beam Angular Drift Error, Optics Express, 26/13, 17185–17198.
CONSORTINI A., RONCHI L., STEFANUTTI L., 1970, Investigation of Atmospheric Turbulence by Narrow Laser Beams, Appl. Opt., 9, 2543–2547.
YAHE R.Z., LAST I., 1992, Numerical Simulation of Laser Beam Propagation in Three-Dimensional Random Media: Beam Splitting and Patch Formation, Waves in Random Media, 2, 81–98.
CAI Y., 2006, Propagation of Various Flat-Topped Beams in a Turbulent Atmosphere, J. OPT. A–PURE, 8, 537–545.
ZHAO W., QIU L., FENG Z., LI C., 2006, Laser Beam Alignment by Fast Feedback Control of Both Linear and Angular Drifts, Optik, 117, 505.
MURTY S.C.C., 1979, Laser Beam Propagation in Atmospheric Turbulence, Prec. Indian Acad. Sci., C 2, Part 2, May, 179–195.
YUSHENG Z., 2015, Experimental Study of Laser Beam Drift, International Conference on Optoelectronics and Microelectronics (ICOM).
KLEMM K., PIESZYNSKI K., ROZNIAKOWSKI K., 2007, Examination of Air Density Fluctuations with the Aid of Laser Beam, Optica Applicata, XXXVII, 3.
LI Y., QI J., CHEN F., 2017, Propagation Quality of Laser Diode Beam in Anisotropic Non-Kolmogorov Atmospheric Turbulence, Acta Optica Sinica, 37/7.
TATARSKI V.I., 1971, Wave Propagation in Turbulent Medium, (Springfield, Virginia: National Technical Information Service).
KERR J.R., DUNPHY J.R., 1973, Scintillation Measurements for Large Integrated-Path Turbulence, J. Opt. Soc. Am., 63.
MAHDIEH M.H., 2008, Numerical Approach to Laser Beam Propagation Through Turbulent Atmosphere and Evaluation of Beam Quality Factor, Optics Communications, 281, 3395–3402.
LI J., WEI H., YAN LI Y., 2019, Beam Drift Reduction by Straightness Measurement Based on a Digital Optical Phase Conjugation, Applied Optics, 58/27, 7636–7642.
ZHAO W., TAN J., QIU L., et al., 2005, Enhancing Laser Beam Directional Stability by Single-Mode Optical Fiber and Feedback Control of Drifts, Rev. Sci. Instrum., 76, 036101.
GRAYSON K., 2017, Beam Stability and Warm-Up Effects of Nd: YAG Lasers Used in Particle Image Velocimetry, Meas. Sci. Technol., 28, 065301.
STERN G., 2014, Experiments of Laser Pointing Stability in Air and in Vacuum to Validate Micrometric Positioning Sensor, 5th International Particle Accelerator Conference IPAC, Dresden, Germany.