Ultrasound Transducers Practice Test

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What are grating lobe artifacts, and how are they mitigated?

Grating lobes are secondary beams caused by tissue attenuation.

They are reflections due to impedance mismatch.

They occur due to random electronics noise.

Grating lobes are secondary beams caused by periodic element spacing; spacing ≤ λ/2 and proper apodization reduce their strength.

Grating lobes are secondary beams produced by a transducer array when the elements are spaced periodically and the spacing is not small enough relative to the wavelength. These additional beams emerge at specific angles and can send energy into directions outside the intended main beam, creating artifacts in the image. The strongest way to suppress them is to keep the element spacing at or below half a wavelength. When spacing is ≤ λ/2, the unwanted maxima of the array’s radiation pattern are greatly reduced, so fewer spurious directions appear.

In addition, apodization helps by weighting each element’s excitation with a tapered window, which lowers sidelobe levels across the board, including the grating lobes. This reduces the strength of these artifacts without changing the physical spacing of the elements, though it may slightly broaden the main lobe.

Thus, grating lobes come from periodic spacing and are mitigated by keeping spacing small (≤ λ/2) and applying apodization to dampen sidelobes.

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