Chu Chen scite author profile

The Laser Ultrasonic (LU) technique has been widely studied. Detected ultrasonic signals can be further processed using Synthetic Aperture Focusing Techniques (SAFTs), to detect and image internal defects. LU-based SAFT in frequency-domain (F-SAFT) is developed to visualize horizontal hole-type defects in aluminum. Bulk acoustic waves are non-destructively generated by irradiating a laser line-source, and detected using a laser Doppler vibrometer at a point away from the generation. The influence of this non-coincident generation-detection on the equivalent acoustic velocity used in the algorithm is studied via velocity mappings. Because the wide-band generation characteristic of the LU technique, frequency range selections in acoustic wave signals are implemented to increase Signal-to-Noise Ratio (SNR) and reconstruction speed. Results indicate that by using the LU F-SAFT algorithm, and incorporating optimizations such as velocity mapping and frequency range selection, small defects can be visualized in 3D with corrected locations and improved image quality.

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28 Gb/s 850 nm oxide VCSEL development at Avago

Wang

Keever

Feng

et al. 2013

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Application of Phase Shift Migration Method in Laser Ultrasonic SAFT

Chen¹,

Ying²,

Liu³

et al. 2021

中国激光

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Chu Chen

28-Gbps 850-nm oxide VCSEL development and manufacturing progress at Avago

Non-destructive laser-ultrasonic Synthetic Aperture Focusing Technique (SAFT) for 3D visualization of defects

28 Gb/s 850 nm oxide VCSEL development at Avago

Application of Phase Shift Migration Method in Laser Ultrasonic SAFT

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