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Efficient creation of anisotropic nanopores and associated birefringence in fused silica by elliptically polarized femtosecond laser pulses is observed. Applications in multiplexed optical data storage and optical elements are demonstrated.
High energy ions were accelerated by extreme space charge fields induced during relativistic transparency and optimised by tuning the target thickness to the individual laser parameters
Super-resolution microscopy with 3 nm resolution and sub-nanometer localization precision is achieved on DNA origami structures with DNA PAINT and L-PAINT, a novel scheme for fast super-resolution.
Facile nanostamping of the high-refractive index nanoparticle-embedded-resin for the direct fabrication of highly efficient metaholographic devices down to the deep-ultraviolet region.
This review article analyzes the current state of the 2D and 3D deformable displays and discusses the technological challenges to be achieved for practical uses and industrial commercialization.
We develop upconversion time-stretch infrared spectroscopy, which enables high-speed and high-resolution broadband mid-infrared spectroscopy with over 1000 spectral elements at a rate of more than 10 MSpectra s−1.
We experimentally demonstrate a chip scale 2D MoSe2/WS2 heterostructure photodetector operating at near visible frequencies and its application for characterizing silicon nitride resonators that are integrated on the same chip.
We demonstrate an all-round dynamic control of intra- and inter-layer excitonic processes and interconversion between IX and IX− in a WSe2/Mo0.5 W0.5 Se2 heterobilayer with <20 nm spatial resolution, achieved by multifunctional tip-enhanced photoluminescence (TEPL) spectroscopy and imaging.
Conventional widefield excitation and temporal phase-shift fluorescence interference in a basic 4π-interferometer enable video rate, multiple particle tracking with isotropic, 3D precision over large volumes in cells and deep in soft materials.