AI Article Synopsis
- We conducted a groundbreaking single-shot, contactless measurement of ultrasonic waves on a laser-propelled rod using a homodyne quadrature laser interferometer (HQLI), showcasing the method's effectiveness.
- This experiment is the first to demonstrate the laser-induced motion of an elastic object, highlighting key mechanisms that explain its behavior.
- Our findings confirm that HQLI is suitable for monitoring high-amplitude (1.3 microm) and high-frequency (200 MHz) ultrasonic waves, and it can also be used for measuring other transient phenomena with high sensitivity and resolution below 1 nm.
Article Abstract
We performed a single-shot, contactless measurement of ultrasonic waves on a laser-propelled rod with a homodyne quadrature laser interferometer (HQLI) during the entire duration of its motion. This is the first such experimental demonstration of the laser-induced motion of an elastic body where the most important mechanisms that reveal the nature of its motion are presented and explained. Furthermore, these measurements quantitatively demonstrate that the HQLI is an appropriate tool for monitoring high-amplitude (1.3 microm) and high-frequency (200 MHz) ultrasonic waves on moving objects. The applicability of the HQLI can also be extended to measure other optodynamic and high-frequency transient phenomena with a constant sensitivity and a resolution below 1 nm.
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| http://dx.doi.org/10.1364/OE.17.022906 | DOI Listing |
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