1. Non-contact method for analysis of cavitating flowsIgnacijo Biluš, Benjamin Bizjan, Luka Lešnik, Brane Širok, Boštjan Pečnik, Matevž Dular, 2017, original scientific article Keywords: acoustic cavitation, sonotrode, pressure measurement, hydrophone, computer-aided visualization, image velocimetry Full text (file, 1,90 MB) This document has more files! More... |
2. Localized measurement of a sub-nanosecond shockwave pressure rise timeJaka Petelin, Žiga Lokar, Darja Horvat, Rok Petkovšek, 2022, original scientific article Keywords: optical fiber sensors, pressure measurement, measurement by laser beam, electric breakdown, sonar equipment, fiber lasers, optical fibers, fiber optic probe hydrophone, pressure, shockwave Full text (file, 2,45 MB) This document has more files! More... |
3. Multi-frame multi-exposure shock wave imaging and pressure measurementsJaka Mur, Fabian Reuter, Jernej Jan Kočica, Žiga Lokar, Jaka Petelin, Vid Agrež, Claus-Dieter Ohl, Rok Petkovšek, 2022, original scientific article Keywords: cavitation, laser breakdown, shock wave, laser illumination, fiber-optic hydrophone Full text (file, 4,33 MB) This document has more files! More... |
4. Interferometric fiber optic probe for measurements of cavitation bubble expansion velocity and bubble oscillation timeEmil Zubalic, Daniele Vella, Aleš Babnik, Matija Jezeršek, 2023, original scientific article Keywords: optically induced cavitation, bubble dynamics measurement, fiber optic probe hydrophone, fiber optic probe interferometer, bubble oscillation time, bubble expansion velocity Full text (file, 2,00 MB) This document has more files! More... |
5. Ultrafast measurement of laser-induced shock wavesŽiga Lokar, Darja Horvat, Jaka Petelin, Rok Petkovšek, 2023, original scientific article Keywords: laser-induced shockwave, shockwave rise time, fiber optic hydrophone, viscosity Full text (file, 4,58 MB) This document has more files! More... |