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英语翻译Inexpensive Acoustoelectric Hydrophone For Mapping HighI
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英语翻译
Inexpensive Acoustoelectric Hydrophone For Mapping High
Intensity Ultrasonic Fields
Abstract
We describe an inexpensive alternative to conventional hydrophones for measuring ultrasonic fields.
The hydrophone,composed of common laboratory supplies,depends on the acoustoelectric (AE)
effect,a well-known interaction between electrical current and pressure.Beam patterns of a 540 kHz
annular transducer captured using a bowtie graphite hydrophone were consistent with patterns
obtained using conventional,more expensive hydrophones.The AE signal was proportional to both
the applied bias current (1.83 μV/mA) and pressure (13.3 μV/MPa) with sensitivity better than 50
kPa.Disposable AE hydrophones may be an attractive alternative for clinical applications that require
close monitoring of high intensity acoustic fields.
英语翻译
Inexpensive Acoustoelectric Hydrophone For Mapping High
Intensity Ultrasonic Fields
Abstract
We describe an inexpensive alternative to conventional hydrophones for measuring ultrasonic fields.
The hydrophone,composed of common laboratory supplies,depends on the acoustoelectric (AE)
effect,a well-known interaction between electrical current and pressure.Beam patterns of a 540 kHz
annular transducer captured using a bowtie graphite hydrophone were consistent with patterns
obtained using conventional,more expensive hydrophones.The AE signal was proportional to both
the applied bias current (1.83 μV/mA) and pressure (13.3 μV/MPa) with sensitivity better than 50
kPa.Disposable AE hydrophones may be an attractive alternative for clinical applications that require
close monitoring of high intensity acoustic fields.
Inexpensive Acoustoelectric Hydrophone For Mapping High
Intensity Ultrasonic Fields
Abstract
We describe an inexpensive alternative to conventional hydrophones for measuring ultrasonic fields.
The hydrophone,composed of common laboratory supplies,depends on the acoustoelectric (AE)
effect,a well-known interaction between electrical current and pressure.Beam patterns of a 540 kHz
annular transducer captured using a bowtie graphite hydrophone were consistent with patterns
obtained using conventional,more expensive hydrophones.The AE signal was proportional to both
the applied bias current (1.83 μV/mA) and pressure (13.3 μV/MPa) with sensitivity better than 50
kPa.Disposable AE hydrophones may be an attractive alternative for clinical applications that require
close monitoring of high intensity acoustic fields.
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