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PhaseFIT is a cutting-edge, segmentation-informed generative AI which effortlessly transforms one dimensional phase contrast images into rich, multi-channel fluorescent visuals for rapid, annotation-free phenotypic quantification, setting a new standard for high content drug screening applications.
We develop a rolling Fourier ring correlation (rFRC) method to evaluate the reconstruction uncertainty at super-resolution scale, detecting the spatial resolution heterogeneity of super-resolution microscopy along different dimensions.
We present a chip-scale second-harmonic source based on the self-injection-locking of a semiconductor laser to a high-Q silicon nitride microresonator. All-optical poling enables efficient frequency conversion with hertz-level emission linewidth.
This work demonstrates versatile light manipulation of various excitons in WSe2 via contrasting exciton-photon coupling with dipole-orientation, diffusion and chirality dependences.
Tunable plasmonic features were achieved in tellurite glass via new ways to control the in situ formation of gold nanoparticles, enabling investigation and utilising plasmonic properties for photonics research and applications.
We report a reflective display technique using electro-microfluidic assembly of particles based on the dielectrophoretic effect facilitated with droplet compression, demonstrating multi-color display performance with large viewing angle and semi-bistability.
We proposed a general deep reinforcement learning framework to design materials and structures simultaneously for wavelength-selective thermal emitters with broad applications in emissivity engineering.
Optical gain of perovskite nanosheets becomes increased when a micro-patterned structure is utilized, where gain saturation is analyzed in the plane of spectrum energy and stripe length.
Optical-electrical force nanoscopy. Fdip, Fes and FvdW are simultaneously applied and demodulated at the fundamental, second and third eigenmodes of a cantilever for PiFM, KPFM/EFM and topography images, respectively.
We perform wavefront control in a subcycle optical vortex pulse by manipulating its carrier-envelope phase. This adjustment affects both temporal and spatial characteristics through spatiotemporal coupling in the structured pulse.
Near-infrared light absorption in 2D materials can be engineered using electrode fabrication methods, which were exploited to construct sensitive telecom-band photodetectors based on MoS2.