L. Bosselaar scite author profile

Measurements of ultrasonic velocity and attenuation require ’’diffraction corrections’’ for the finite size of the source and receiver. These diffraction corrections depend on the area of the source which is usually taken as the physical area of the piezoelectric element of the the transducer. Measurements are reported which indicate that the effective area of a disk-shaped element may vary with the exciting frequency and may differ by 40% from the physical area of the disk. The method reported may be of value in the selection of transducers, in accurate diffraction correction calculations, and in the field of ultrasonic exposimetry.

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Noncontact calibration of optical fiber cladding diameter using exact scattering theory

Mark

Bosselaar

1994

J. Lightwave Technol.

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L. Bosselaar

Improved model for OH absorption in optical fibers

Effective area to be used in diffraction corrections

Noncontact calibration of optical fiber cladding diameter using exact scattering theory

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