Add to ORKGGigahertz acoustic waves propagating on the surface of a metal halfspace are detected using different all-optical detection schemes, namely, deflectometry and beam distortion detection techniques. Both techniques are implemented by slightly modifying a conventional reflectometric setup. They are then based on the measurement of the reflectivity change but unlike reflectometric measurements, they give access to the sample surface displacement. A semi-analytical model, taking into account optical, thermal, and mechanical processes responsible for acoustic waves generation, allows analyzing the physical content of the detected waveforms
The pursuit of non-contact techniques for detecting ultrasonic waves propagating on the surface of s...
Laser generation and detection of ultrasound has the advantage of requiring no mechanical contact wi...
We use femtosecond extreme ultraviolet pulses derived from a free electron laser to excite and probe...
Focusing of high-amplitude surface acoustic waves leading to material damage is visualized in an all...
A new sensor is presented for detecting surface acoustic waves. The sensor constructed, using single...
High-frequency surface acoustic waves (SAWs) in the GHz range can be generated using absorption from...
High-frequency surface acoustic waves (SAWs) in the GHz range can be generated using absorption from...
International audienceThe measurement of the displacements caused by the propagation of a short puls...
Important information on subsurface material parameters and structure is contained in the dynamics o...
International audienceThe development of transducers to excite and detect coherent surface acoustic ...
This project was worked on during the autumn 2005 at the Norwegian University of Science and Technol...
International audienceLaser-induced Surface Acoustic Wave (SAW) pulses of large amplitude have been ...
A coherent laser probe provides the basis for the recording of complex SAW distributions. Using thre...
The detection of ultrashort laser-generated acoustic pulses at a metal surface and the reconstructio...
Conventional contact ultrasonic methods suffer from large variability, which is known to originate ...
The pursuit of non-contact techniques for detecting ultrasonic waves propagating on the surface of s...
Laser generation and detection of ultrasound has the advantage of requiring no mechanical contact wi...
We use femtosecond extreme ultraviolet pulses derived from a free electron laser to excite and probe...
Focusing of high-amplitude surface acoustic waves leading to material damage is visualized in an all...
A new sensor is presented for detecting surface acoustic waves. The sensor constructed, using single...
High-frequency surface acoustic waves (SAWs) in the GHz range can be generated using absorption from...
High-frequency surface acoustic waves (SAWs) in the GHz range can be generated using absorption from...
International audienceThe measurement of the displacements caused by the propagation of a short puls...
Important information on subsurface material parameters and structure is contained in the dynamics o...
International audienceThe development of transducers to excite and detect coherent surface acoustic ...
This project was worked on during the autumn 2005 at the Norwegian University of Science and Technol...
International audienceLaser-induced Surface Acoustic Wave (SAW) pulses of large amplitude have been ...
A coherent laser probe provides the basis for the recording of complex SAW distributions. Using thre...
The detection of ultrashort laser-generated acoustic pulses at a metal surface and the reconstructio...
Conventional contact ultrasonic methods suffer from large variability, which is known to originate ...
The pursuit of non-contact techniques for detecting ultrasonic waves propagating on the surface of s...
Laser generation and detection of ultrasound has the advantage of requiring no mechanical contact wi...
We use femtosecond extreme ultraviolet pulses derived from a free electron laser to excite and probe...