光和物质的相互作用引起了许多我们所熟知的现象,例如吸收、散射、自发(受激)辐射等。
The interaction of light with matter gives rises to a wide range of phenomena that we are familiar with, such as absorption, scattering, and spontaneous or stimulated emission.
“这是我们这一发现的精要所在:采用局域模不仅能捕获光,还增强了光和物质的相互作用,”Lodahl说。
"This is the essence of our discovery: we used localized modes not just to trap light but to enhance interaction between light and matter," Lodahl says.
这次报告,我将首先介绍我们在纳米半导体材料(在这类材料中材料的尺寸和结构的各向异性起重要的作用)中对探究光和物质相互作用的能力。
In this talk, I will first introduce our capability of probing light-matter interactions in nanoscale semiconductor materials, whereby the quantum size and structure anisotropy play an important role.
超短脉冲超高能量激光器作为研究光和物质相互作用以及惯性约束聚变的手段而得到了广泛的应用。
As a new method for studying light-matter interaction and inertial confinement fusion (ICF), all dielectric pulse compressor gratings have been widely used.
超短脉冲超高能量激光器作为研究光和物质相互作用以及惯性约束聚变的手段而得到了广泛的应用。
As a new method for studying light-matter interaction and inertial confinement fusion (ICF), all dielectric pulse compressor gratings have been widely used.
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