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We discuss the recent progress on the dynamic control of tip-induced light-matter interactions, especially for the low dimensional quantum materials. This review is divided into three parts based on the type of tip-induced control, i.e., gap control of tip-cavity, tip-pressure control, and near-field polarization control.
We review the two decades of tilted pulse front pumping, and suggest its applications to new materials and laser sources, emphasizing its potential with semiconductors and organic crystals for promising advancements.
We reviewed recent intelligent methods for metasurface designs including machine learning, physics-information neural network, and topology optimization method.
We present how direct-laser-writing can be utilized to fabricate ultra-thin light-weight planar diffractive optics with graphene as the base material. (Inset scale bar: 1 mm).
This paper reviews recent advances that have pushed the boundary of far-field chemical microscopy in terms of spatial resolution as well as their applications in biomedical research, material characterization, environmental study, etc.
Insights from recent THz emission studies involving quantum materials and low-dimensional systems are surveyed from the standpoints of dynamical mechanisms and basic symmetries, highlighting interplays between intrinsic and designer structuring.
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.
The crystal growth, defects control, electrical property and corresponding device authentication of N-type, P-type and semi-insulating silicon carbide crystals in Shandong University are introduced.
Hydrothermal-grown KTiOPO4 (KTP) Crystal for Electro-optical Q-switch—a crystal having a high electro-optic coefficient, a low dielectric constant, and capable of operating at high frequencies (>1 MHz).