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An Instantaneous Two-Dimensional Photoacoustic Wave Measurement Method Based on Femtosecond Single Pulse Interferometry

A measurement method and femtosecond pulse technology, applied in the field of optical measurement, can solve the problems of low lateral resolution of imaging, small field of view, inability to achieve quantitative analysis, etc., to achieve the effect of improving signal-to-noise ratio and suppressing amplified spontaneous emission

Active Publication Date: 2021-07-30
HEFEI UNIV OF TECH
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Problems solved by technology

However, currently available high-speed 2D cameras are not sufficient for picosecond-scale pump-probe imaging, so 1D photodetectors are often used, and the state-of-the-art photodetectors have response times of several picoseconds
To achieve two-dimensional measurements with ultra-high temporal resolution, one-dimensional detection can be extended to two-dimensional imaging by deploying multiple photodetectors in a grid layout or sequentially scanning a single photodetector over the target area, but it can achieve The field of view is not large, and the imaging lateral resolution is low
At the same time, due to the light background noise of the camera exposure time, the contrast based on short-pulse pump-probe imaging is low, which limits the imaging quality of ultrafast kinetics and cannot achieve quantitative analysis.

Method used

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  • An Instantaneous Two-Dimensional Photoacoustic Wave Measurement Method Based on Femtosecond Single Pulse Interferometry
  • An Instantaneous Two-Dimensional Photoacoustic Wave Measurement Method Based on Femtosecond Single Pulse Interferometry
  • An Instantaneous Two-Dimensional Photoacoustic Wave Measurement Method Based on Femtosecond Single Pulse Interferometry

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Embodiment Construction

[0025] The technical solutions in the embodiments of the present invention will be clearly and completely described below in conjunction with the accompanying drawings.

[0026] Such as Figure 1-6 As shown, an instantaneous two-dimensional photoacoustic wave measurement method based on femtosecond single-pulse interference includes the following steps, 1) constructing a femtosecond laser single-pulse interferometric ultrafast imaging system, reducing the repetition rate of femtosecond pulses, and realizing mode-locked femtosecond imaging. Synchronization of second laser, acousto-optic pulse picker, pump pulse, probe pulse and camera frame rate;

[0027] 2) Use an acousto-optic pulse selector to down-frequency the high repetition rate mode-locked femtosecond laser, and use an ytterbium-doped laser amplifier to amplify the power of the down-frequency femtosecond pulse;

[0028] 3) The high-power femtosecond pulse is divided into two beams, which are respectively used as pump l...

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Abstract

The invention belongs to the field of optical measurement, and discloses an instantaneous two-dimensional photoacoustic wave measurement method based on femtosecond single pulse interference. Synchronization of detection pulse and camera frame rate; characterized in that, 2) femtosecond pulse power amplification after frequency reduction, high repetition rate mode-locked femtosecond laser frequency reduction, femtosecond pulse power amplification after frequency reduction; 3) The photoacoustic wave induction generation module forms photoacoustic waves and filters out optical background noise; 4) Mach-Zehnder interferometry is used to realize the interference of reference light and measurement light, and the reference light is modulated at high frequency to improve the signal-to-noise ratio of interference fringes; 5) In a single The single-pulse interference image is collected within the exposure time of the camera, and the instantaneous two-dimensional photoacoustic wave measurement is completed by using the Fourier transform phase reconstruction algorithm. Utilizing the time synchronization of camera exposure and ultrashort pulses, ultrafast imaging with sub-picosecond temporal resolution was experimentally obtained.

Description

technical field [0001] The invention belongs to the field of optical measurement, in particular to an instantaneous two-dimensional photoacoustic wave measurement method based on femtosecond single pulse interference. Background technique [0002] Ultrafast laser-induced photoacoustic imaging can be used for the study of nonlinear absorption and refraction properties of materials, spectral imaging of biological objects and non-invasive detection of subsurface microelectronic damage. The instantaneous observation of photoacoustic waves with a large field of view is a very challenging task. So far, due to the lack of high-speed two-dimensional sensors, the characterization of photoacoustic waves generally uses one-dimensional piezoelectric or laser vibration with limited temporal and spatial resolution. sensor. [0003] High-speed camera imaging based on pulsed light reflection or transmission can be used to observe fast physical phenomena. The latest application of ultrashor...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G01N21/17G01J3/45
CPCG01J3/45G01N21/1702
Inventor 王婧于连栋陆洋赵会宁蒲松孙雄鑫
Owner HEFEI UNIV OF TECH
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