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Polarization-sensitive intensity diffraction tomography
The three-dimensional (3D) distribution of isotropic and anisotropic properties of multi-scattering objects can be effectively encoded into multiple intensity images at different input polarization states and illumination angles. Polarization-sensitive intensity diffraction tomography (PS-IDT) has demonstrated the tomographic reconstruction of 3D multiple scattering objects with fully or partially distributed anisotropy structures using vectorial multi-slice beam propagation forward model and optimization approach from captured phaseless measurements.

Seungri SongJeongsoo KimChulmin Joo
Article
Open Access
18 May 2023

Compressive holographic sensing simplifies quantitative phase imaging
Quantitative phase imaging (QPI) has emerged as method especially for investigating biological specimen. However, conventional methods often suffer from shortcomings in image quality, such as the twin image artifact of inline holography. The presented compact 3D sensing system utilizes a novel computational framework for QPI from single intensity images. The reported system offers accurate and efficient 3D profiling, overcoming the limitations of conventional inline holography approaches. This paradigm shift is promising for biomedical imaging, and material analysis.

Jiawei SunJuergen W. Czarske
News & Views
Open Access
17 May 2023

Electrically tunable solid-state metasurfaces realized by flash localized heating
Qian SunMinghui Hong
News & Views
Open Access
17 May 2023

A general methodology to measure the light-to-heat conversion efficiency of solid materials
A general methodology was proposed to measure the light-to-heat conversion efficiency of solid materials by considering laser heating process with electric heating process.

Kai GuHaizheng Zhong
Article
Open Access
17 May 2023

Phase-tailored assembly and encoding of dissipative soliton molecules
Yusong LiuSiyun HuangPerry Ping Shum
Article
Open Access
17 May 2023

Rational adjustment to interfacial interaction with carbonized polymer dots enabling efficient large-area perovskite light-emitting diodes
Using carbonized polymer dots, the interfacial properties between perovskites and the hole transporter can be optimized. The anion-dominated interface breeds a dense and homogeneous emitting layer, enabling 20.2% external quantum efficiency for 225 mm2 large-area light-emitting device.

Fan YangQingsen ZengBai Yang
Article
Open Access
15 May 2023

Nanograin network memory with reconfigurable percolation paths for synaptic interactions
Nanograin network memory is developed using reconfigurable percolation paths in a single Si NW with solid core and porous shell, demonstrating analog adjustment of persistent current level.

Hoo-Cheol LeeJungkil KimHong-Gyu Park
Article
Open Access