Pseudo-Doppler effect at a disappearance of a single microbubble translating owing to acoustic radiation force

Kenji Yoshida; Masaaki Omura; Shinnosuke Hirata; Tadashi Yamaguchi

doi:10.35848/1347-4065/acc7af

Pseudo-Doppler effect at a disappearance of a single microbubble translating owing to acoustic radiation force

Kenji Yoshida^*, Masaaki Omura, Shinnosuke Hirata, Tadashi Yamaguchi

^*この論文の責任著者

工学科　知能情報工学コース

研究成果: ジャーナルへの寄稿 › 学術論文 › 査読

4 被引用数 (Scopus)

抄録

We attempted to visualize a single microbubble driven by acoustic radiation force using a combination of pulse inversion Doppler and plane wave imaging. Commercial microbubbles, Sonazoid® underwent ultrasound exposure with a center frequency of 5.2 MHz, a pulse repetition frequency of 4 kHz, and a negative peak sound pressure of 1.59 MPa. It succeeded in separately detecting individual microbubbles with high sensitivity. The disappearance of freely-translating microbubbles could be observed as a broadened spectrum of Doppler signal, i.e. a pseudo-Doppler effect. However, the trend was not apparent in the case of wall-colliding microbubbles.

本文言語	英語
論文番号	SJ8009
ジャーナル	Japanese Journal of Applied Physics
巻	62
号	SJ
DOI	https://doi.org/10.35848/1347-4065/acc7af
出版ステータス	出版済み - 2023/07/01

ASJC Scopus 主題領域

工学一般
物理学および天文学一般

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10.35848/1347-4065/acc7af

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title = "Pseudo-Doppler effect at a disappearance of a single microbubble translating owing to acoustic radiation force",

abstract = "We attempted to visualize a single microbubble driven by acoustic radiation force using a combination of pulse inversion Doppler and plane wave imaging. Commercial microbubbles, Sonazoid{\textregistered} underwent ultrasound exposure with a center frequency of 5.2 MHz, a pulse repetition frequency of 4 kHz, and a negative peak sound pressure of 1.59 MPa. It succeeded in separately detecting individual microbubbles with high sensitivity. The disappearance of freely-translating microbubbles could be observed as a broadened spectrum of Doppler signal, i.e. a pseudo-Doppler effect. However, the trend was not apparent in the case of wall-colliding microbubbles.",

keywords = "Doppler effect, acoustic radiation force, collapse, microbubble, plane wave imaging, translation",

author = "Kenji Yoshida and Masaaki Omura and Shinnosuke Hirata and Tadashi Yamaguchi",

note = "Publisher Copyright: {\textcopyright} 2023 The Japan Society of Applied Physics.",

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doi = "10.35848/1347-4065/acc7af",

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AU - Yoshida, Kenji

AU - Omura, Masaaki

AU - Hirata, Shinnosuke

AU - Yamaguchi, Tadashi

PY - 2023/7/1

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N2 - We attempted to visualize a single microbubble driven by acoustic radiation force using a combination of pulse inversion Doppler and plane wave imaging. Commercial microbubbles, Sonazoid® underwent ultrasound exposure with a center frequency of 5.2 MHz, a pulse repetition frequency of 4 kHz, and a negative peak sound pressure of 1.59 MPa. It succeeded in separately detecting individual microbubbles with high sensitivity. The disappearance of freely-translating microbubbles could be observed as a broadened spectrum of Doppler signal, i.e. a pseudo-Doppler effect. However, the trend was not apparent in the case of wall-colliding microbubbles.

AB - We attempted to visualize a single microbubble driven by acoustic radiation force using a combination of pulse inversion Doppler and plane wave imaging. Commercial microbubbles, Sonazoid® underwent ultrasound exposure with a center frequency of 5.2 MHz, a pulse repetition frequency of 4 kHz, and a negative peak sound pressure of 1.59 MPa. It succeeded in separately detecting individual microbubbles with high sensitivity. The disappearance of freely-translating microbubbles could be observed as a broadened spectrum of Doppler signal, i.e. a pseudo-Doppler effect. However, the trend was not apparent in the case of wall-colliding microbubbles.

KW - Doppler effect

KW - acoustic radiation force

KW - collapse

KW - microbubble

KW - plane wave imaging

KW - translation

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Pseudo-Doppler effect at a disappearance of a single microbubble translating owing to acoustic radiation force

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