The keyhole produced during deep penetration laser welding emits a plume of hot metal vapor and particles. The interaction
between the plume and the incident laser beam results in beam scattering, absorption, and phase front deformation. The
combination of scattering and absorption leads to a partial extinction of the laser beam, while the phase front deformation
adversely effects the beam quality. In this study we present a measurement setup which allows for diagnostics of the beam
characteristics after interaction with the plume. This is achieved by utilizing an additional measurement beam, which is
coaxially aligned to the high-power laser beam used for welding. The experimental procedure presented here enables highfrequency
measurements of the caustic changes and relative power losses of the measurement beam. The measurements
obtained provide a quantification of the various interaction mechanisms between the laser beam and vapor plume. This
knowledge is crucial to prevent weld defects, which result from the adverse effects of the vapor plume on the laser beam.
%0 Conference Paper
%1 wahl.2024.characterizing.plume
%A Wahl, Johannes
%A Frey, Christian
%A Powell, John
%A Zaiß, Felix
%A Haas, Michael
%A Olschok, Simon
%A Hagenlocher, Christian
%A Reisgen, Uwe
%A Graf, Thomas
%B High-Power Laser Materials Processing: Applications, Diagnostics, and Systems XIII
%D 2024
%E Kaierle, Stefan
%E Kleine, Klaus R.
%I SPIE
%K BeamCharacterisation Diagnostics Laser MacroMaterialProcessing ProcessDevelopement Welding YbYag myown
%R 10.1117/12.3002720
%T Characterizing the effect of the vapor plume on laser beam
characteristics during laser beam welding
%U https://doi.org/10.1117/12.3002720
%V 12878
%X The keyhole produced during deep penetration laser welding emits a plume of hot metal vapor and particles. The interaction
between the plume and the incident laser beam results in beam scattering, absorption, and phase front deformation. The
combination of scattering and absorption leads to a partial extinction of the laser beam, while the phase front deformation
adversely effects the beam quality. In this study we present a measurement setup which allows for diagnostics of the beam
characteristics after interaction with the plume. This is achieved by utilizing an additional measurement beam, which is
coaxially aligned to the high-power laser beam used for welding. The experimental procedure presented here enables highfrequency
measurements of the caustic changes and relative power losses of the measurement beam. The measurements
obtained provide a quantification of the various interaction mechanisms between the laser beam and vapor plume. This
knowledge is crucial to prevent weld defects, which result from the adverse effects of the vapor plume on the laser beam.
@inproceedings{wahl.2024.characterizing.plume,
abstract = {The keyhole produced during deep penetration laser welding emits a plume of hot metal vapor and particles. The interaction
between the plume and the incident laser beam results in beam scattering, absorption, and phase front deformation. The
combination of scattering and absorption leads to a partial extinction of the laser beam, while the phase front deformation
adversely effects the beam quality. In this study we present a measurement setup which allows for diagnostics of the beam
characteristics after interaction with the plume. This is achieved by utilizing an additional measurement beam, which is
coaxially aligned to the high-power laser beam used for welding. The experimental procedure presented here enables highfrequency
measurements of the caustic changes and relative power losses of the measurement beam. The measurements
obtained provide a quantification of the various interaction mechanisms between the laser beam and vapor plume. This
knowledge is crucial to prevent weld defects, which result from the adverse effects of the vapor plume on the laser beam.},
added-at = {2024-05-08T17:24:05.000+0200},
author = {Wahl, Johannes and Frey, Christian and Powell, John and Zaiß, Felix and Haas, Michael and Olschok, Simon and Hagenlocher, Christian and Reisgen, Uwe and Graf, Thomas},
biburl = {https://puma.ub.uni-stuttgart.de/bibtex/2415a7871bb9837d74a00fc13c50b535b/jwahl},
booktitle = {High-Power Laser Materials Processing: Applications, Diagnostics, and Systems XIII},
doi = {10.1117/12.3002720},
editor = {Kaierle, Stefan and Kleine, Klaus R.},
eventdate = {27 January - 1 February 2024},
eventtitle = {LASE Photonics West},
interhash = {d06fe1ab3228395ad66d8b3dc7239558},
intrahash = {415a7871bb9837d74a00fc13c50b535b},
keywords = {BeamCharacterisation Diagnostics Laser MacroMaterialProcessing ProcessDevelopement Welding YbYag myown},
language = {english},
month = mar,
publisher = {SPIE},
series = {Proc. SPIE},
timestamp = {2024-05-08T18:28:28.000+0200},
title = {Characterizing the effect of the vapor plume on laser beam
characteristics during laser beam welding},
url = {https://doi.org/10.1117/12.3002720},
venue = {San Francisco, California, United States},
volume = 12878,
year = 2024
}