Overcoming the trade-off between signal-to-noise ratio and resolution in holographic registration of pulsed terahertz Gauss–Bessel beams

Tsiplakova, E. G.; Grachev, Y. V.; Petrov, N. V.

doi:10.1063/5.0221211

Applied Physics Letters

2024

DOI: 10.1063/5.0221211

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Overcoming the trade-off between signal-to-noise ratio and resolution in holographic registration of pulsed terahertz Gauss–Bessel beams

E. G. Tsiplakova,

Y. V. Grachev,

N. V. Petrov

Abstract: The measurement of the spatial distribution of the nearly monocyclic terahertz (THz) fields by a raster scanning diaphragm is the widely used approach in THz pulse time-domain holography (PTDH) applied in imaging, optical component design, and wavefront sensing tasks. However, it is historically plagued by a compromise between the balance between the signal-to-noise ratio (SNR) and resolution. To address this challenge and keep both parameters at a high level, we proposed to replace the scanning aperture with … Show more

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Cited by 2 publications

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Dual-plane synthetic aperture phase retrieval with the CAEP pulsed terahertz free electron laser

Li,

Wang,

Kong

et al. 2024

Infrared Physics & Technology

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Dual-plane synthetic aperture phase retrieval with the CAEP pulsed terahertz free electron laser

Li,

Wang,

Kong

et al. 2024

Infrared Physics & Technology

View full text Add to dashboard Cite

Real-time three-dimensional monitoring and analysis of perovskite solar cell using short wavelength infrared digital holography

Yuan,

Huang,

Zhang

et al. 2024

Applied Physics Letters

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The quality and crystallization process of all-inorganic perovskite films play a crucial role in the performance of solar cells. However, traditional detection methods lack three-dimensional depth information and real-time capabilities, hindered by strong visible light absorption, posing challenges to research. Here, a simple digital holography technique is proposed that offers real-time, nondestructive, three-dimensional phase imaging with low absorption characteristics in the short-wave infrared range. The use of short-wave infrared reduces the negative impact of visible light and vibrations in the environment on detection accuracy, while being nearly non-absorbing. The proposed method operates at a speed of 15 Hz, combining a lensless vertical structure, holographic reconstruction algorithm, and phase unwrapping algorithm to achieve real-time three-dimensional observation without image distortion and with low noise of the crystallization process of CsPbBr3 perovskite quantum dots (PQDs)/ethylene-vinyl acetate solution, which crystallizes in 39 s. Subsequently, employing minimum bounding rectangle, field stitching, intensity registration, and sub-pixel level calibration algorithms, real-time characterization is performed on the large-sized droplet of polymethyl methacrylate-matrix-encapsulated CsPbBr3 perovskite quantum dots, which has a crystallization time of 1285 s, without being limited by the field of view. Finally, using this system, the surface quality of the film is assessed, revealing fluctuations at the edge and fabrication defects of the perovskite film. Experimental results demonstrate the potential of short-wave infrared digital holography in enhancing the film formation process and quality inspection. By leveraging this technology, advancements in the development of high-performance all-inorganic perovskite solar cells can be fostered, optimizing global energy output.

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Overcoming the trade-off between signal-to-noise ratio and resolution in holographic registration of pulsed terahertz Gauss–Bessel beams

Cited by 2 publications

References 56 publications

Dual-plane synthetic aperture phase retrieval with the CAEP pulsed terahertz free electron laser

Dual-plane synthetic aperture phase retrieval with the CAEP pulsed terahertz free electron laser

Real-time three-dimensional monitoring and analysis of perovskite solar cell using short wavelength infrared digital holography

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