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Literature DB >> 27375295

Strategies to improve phase-stability of ultrafast swept source optical coherence tomography for single shot imaging of transient mechanical waves at 16 kHz frame rate.

Shaozhen Song¹, Wei Wei¹, Bao-Yu Hsieh¹, Ivan Pelivanov¹, Tueng T Shen, Matthew O'Donnell¹, Ruikang K Wang.

Abstract

We present single-shot phase-sensitive imaging of propagating mechanical waves within tissue, enabled by an ultrafast optical coherence tomography (OCT) system powered by a 1.628 MHz Fourier domain mode-locked (FDML) swept laser source. We propose a practical strategy for phase-sensitive measurement by comparing the phases between adjacent OCT B-scans, where the B-scan contains a number of A-scans equaling an integer number of FDML buffers. With this approach, we show that micro-strain fields can be mapped with ∼3.0 nm sensitivity at ∼16 000 fps. The system's capabilities are demonstrated on porcine cornea by imaging mechanical wave propagation launched by a pulsed UV laser beam, promising non-contact, real-time, and high-resolution optical coherence elastography.

Year: 2016 PMID： 27375295 PMCID： PMC4866944 DOI： 10.1063/1.4949469

Source DB: PubMed Journal: Appl Phys Lett ISSN： 0003-6951 Impact factor: 3.791

13 in total

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9. Visualizing ultrasonically induced shear wave propagation using phase-sensitive optical coherence tomography for dynamic elastography.

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3. Ultra-fast line-field low coherence holographic elastography using spatial phase shifting.

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6. Generation of Shear Waves by Laser in Soft Media in the Ablative and Thermoelastic Regimes.

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