聚焦准单极压力脉冲的光声产生。

IF 2.3 3区医学 Q2 OPTICS Journal of Innovative Optical Health Sciences Pub Date : 2010-01-01 DOI:10.1142/S1793545810001118

Konstantin Maslov, Hao F Zhang, Lihong V Wang

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引用次数: 4

摘要

利用光声效应在平面和球聚焦几何中产生短时准单极声压脉冲。在焦点区域，压力脉冲的时间分布可以近似为前传感器表面附近的时间分布的一阶导数，其时间平均值为零。该近似与具有刚性边界和自由边界的光声换能器的实验结果一致。对于自由边界，焦点区域的声压等于沿介质中光能沉积的空间分布的正压和沿激光脉冲的时间分布的负压之和。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Photoacoustic generation of focused quasi-unipolar pressure pulses.

The photoacoustic effect was employed to generate short-duration quasi-unipolar acoustic pressure pulses in both planar and spherically focused geometries. In the focal region, the temporal profile of a pressure pulse can be approximated by the first derivative of the temporal profile near the front transducer surface, with a time averaged value equal to zero. This approximation agreed with experimental results acquired from photoacoustic transducers with both rigid and free boundaries. For a free boundary, the acoustic pressure in the focal region is equal to the sum of a positive pressure that follows the spatial profile of the optical energy deposition in the medium and a negative pressure that follows the temporal profile of the laser pulse.

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来源期刊

Journal of Innovative Optical Health Sciences OPTICS-RADIOLOGY, NUCLEAR MEDICINE & MEDICAL IMAGING

CiteScore

4.50

自引率

20.00%

发文量

审稿时长

>12 weeks

期刊介绍： JIOHS serves as an international forum for the publication of the latest developments in all areas of photonics in biology and medicine. JIOHS will consider for publication original papers in all disciplines of photonics in biology and medicine, including but not limited to: -Photonic therapeutics and diagnostics- Optical clinical technologies and systems- Tissue optics- Laser-tissue interaction and tissue engineering- Biomedical spectroscopy- Advanced microscopy and imaging- Nanobiophotonics and optical molecular imaging- Multimodal and hybrid biomedical imaging- Micro/nanofabrication- Medical microsystems- Optical coherence tomography- Photodynamic therapy. JIOHS provides a vehicle to help professionals, graduates, engineers, academics and researchers working in the field of intelligent photonics in biology and medicine to disseminate information on the state-of-the-art technique.