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W3205647951 abstract "Laser ultrasound offers several benefits in comparison to immersion or air coupled ultrasound: it directly generates stress on the sample surface; it has a wide bandwidth and a small acoustic source can be produced. Conventionally, high power pulsed lasers are required therefore equipment is bulky and expensive. Here we propose to use mid-power laser diodes, which are small and low cost. To solve the low signal amplitude problem with lower power lasers, the use of spread spectrum signal, arbitrary position and width binary pulse sets is proposed. To date, a laser driver for this task has not been available. This paper describes the development of such a compact driver, where the essential electronics occupy an area of 10x20 mm. The whole system with a fixture for kinematic mount is comparable in size to a conventional piezoelectric ultrasonic transducer. The driver can supply pulse sets of up to 40 A. Individual pulse duration can vary between 20 ns to 1000 ns (0.5-25 MHz ultrasound range) and the total pulse train duration is limited by the laser type used. Experiments show that up to 10 μs long pulse sets can be used at 10 A current, without laser degradation. Current waveforms, beam profile and optical response signals were measured for three rectified topologies. It was concluded, that the GaN based constant current switch topology has the best performance, but a power MOSFET in a source current feedback topology can also be used to generate pulses down to 20 ns. Photoacoustic response signals from chirp and phase shift keying modulation have been demonstrated." @default.
W3205647951 created "2021-10-25" @default.
W3205647951 creator A5010071990 @default.
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W3205647951 creator A5079051431 @default.
W3205647951 creator A5079081511 @default.
W3205647951 date "2021-01-01" @default.
W3205647951 modified "2023-10-16" @default.
W3205647951 title "Compact Laser Driver for Ultrasonic Arbitrary Position and Width Pulse Sequences Generation" @default.
W3205647951 cites W1510668868 @default.
W3205647951 cites W1545706581 @default.
W3205647951 cites W1924511420 @default.
W3205647951 cites W1964530280 @default.
W3205647951 cites W1968350804 @default.
W3205647951 cites W1972765044 @default.
W3205647951 cites W1975220545 @default.
W3205647951 cites W1976091935 @default.
W3205647951 cites W1981029726 @default.
W3205647951 cites W1981524568 @default.
W3205647951 cites W1981826472 @default.
W3205647951 cites W1984025394 @default.
W3205647951 cites W1985266595 @default.
W3205647951 cites W1990813627 @default.
W3205647951 cites W1997297390 @default.
W3205647951 cites W1998549716 @default.
W3205647951 cites W2003454705 @default.
W3205647951 cites W2004966293 @default.
W3205647951 cites W2011163988 @default.
W3205647951 cites W2013186239 @default.
W3205647951 cites W2017573305 @default.
W3205647951 cites W2022896050 @default.
W3205647951 cites W2024697092 @default.
W3205647951 cites W2027971442 @default.
W3205647951 cites W2030441466 @default.
W3205647951 cites W2040573208 @default.
W3205647951 cites W2044587937 @default.
W3205647951 cites W2044662204 @default.
W3205647951 cites W2048997530 @default.
W3205647951 cites W2055898956 @default.
W3205647951 cites W2059626242 @default.
W3205647951 cites W2061012269 @default.
W3205647951 cites W2065331118 @default.
W3205647951 cites W2067329427 @default.
W3205647951 cites W2068058236 @default.
W3205647951 cites W2068063900 @default.
W3205647951 cites W2069132281 @default.
W3205647951 cites W2074470769 @default.
W3205647951 cites W2078285282 @default.
W3205647951 cites W2081032267 @default.
W3205647951 cites W2086839671 @default.
W3205647951 cites W2089362734 @default.
W3205647951 cites W2145264398 @default.
W3205647951 cites W2150800412 @default.
W3205647951 cites W2155623494 @default.
W3205647951 cites W2158177039 @default.
W3205647951 cites W2167187609 @default.
W3205647951 cites W2486147405 @default.
W3205647951 cites W2497813968 @default.
W3205647951 cites W2499892647 @default.
W3205647951 cites W2529356775 @default.
W3205647951 cites W2562653163 @default.
W3205647951 cites W2618189545 @default.
W3205647951 cites W2618398489 @default.
W3205647951 cites W2697847166 @default.
W3205647951 cites W2735809226 @default.
W3205647951 cites W2751980550 @default.
W3205647951 cites W2759483083 @default.
W3205647951 cites W2769402075 @default.
W3205647951 cites W2792866456 @default.
W3205647951 cites W2792924494 @default.
W3205647951 cites W2799033404 @default.
W3205647951 cites W2809883623 @default.
W3205647951 cites W2893224327 @default.
W3205647951 cites W2896432456 @default.
W3205647951 cites W2900598711 @default.
W3205647951 cites W2903937454 @default.
W3205647951 cites W2907128745 @default.
W3205647951 cites W2916425486 @default.
W3205647951 cites W2922254609 @default.
W3205647951 cites W2922521792 @default.
W3205647951 cites W2934814626 @default.
W3205647951 cites W2936696297 @default.
W3205647951 cites W2939753178 @default.
W3205647951 cites W2987202909 @default.
W3205647951 cites W3002394929 @default.
W3205647951 cites W3034496636 @default.
W3205647951 cites W3048814064 @default.
W3205647951 cites W3048988067 @default.
W3205647951 cites W3085982265 @default.
W3205647951 cites W3089774838 @default.
W3205647951 cites W3111264361 @default.
W3205647951 cites W3111376350 @default.
W3205647951 cites W84816458 @default.
W3205647951 doi "https://doi.org/10.1109/tim.2021.3120144" @default.
W3205647951 hasPublicationYear "2021" @default.
W3205647951 type Work @default.
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