我承认,超光子一直停留于假定,但是黑洞从前也是假定的,但是现在谁还真的怀疑它的存在?
I will admit that tachyons remain hypothetical, but then so do black holes, and who really doubts their existence anymore?
尽管在地面的实验室中,从来没有发现过超光子,但从数学上说,它是可能存在的。
Although tachyons have never been seen in earth-based laboratories, mathematically they can exist .
超慢光将继续成为实验室未来相当一段时间内的一种神秘而新奇的东西。 如果科学家能够使光子减慢到足够的程度
Superslow light will remain a laboratory curiosity for some time to come.
来自CNRS(法国科学研究中心)光子与纳米结构实验室的团队研究出比现有纠缠光子源亮20倍的新型超亮源。
A team from the Laboratoire DE Photonique et DE Nano-structures (LPN) of CNRS has developed a light source of entangled photons twenty times brighter than all existing systems.
利用平面波展开方法与超原胞方法研究了两种不同晶格的光子晶体异质结的界面态。
We have investigated the guide modes in two kinds of two_dimensional photonic crystal heterostructures by using the plane wave expansion method combined with the supercell technique.
基于超格子构造法,采用全矢量模型研究具有中心缺陷孔的椭圆孔光子晶体光纤(EHPCF)的偏振特性。
Based on the supercell overlapping method the full vector model was adopted to model polarization properties of elliptical-hole photonic crystal fiber (EHPCF) with central defect hole.
应用全矢量超格子叠加模型分析了双芯光子晶体光纤(PCF)的模式特征。
The modal characteristics of dual core photonic crystal fibers(PCFs) are analyzed by a full vector supercell lattice overlapping model.
设计了一种能在不同光谱区域测试生物系统超微弱光子辐射(upe)的实验装置。
An experimental setup for testing the ultra weak photon emission (UPE) from biological system in different spectral region was designed.
光子晶体,负折射率材料,超快、超慢现象,部分相干光学,激光物理,光与物质的相互作用等。
Photonic crystal negative refractive index materials superluminal and subluminal phenomena partially coherent light laser physics and interaction between light and matter.
生物体可以应激而发射光子生成超微弱发光图像。
Living systems may emit photons in response to stress and generate an ultra-weak luminescence bio-image.
利用薄膜一维光子晶体超晶格的概念,设计了两种薄膜多峰滤光片。
The design method is based on concept of thin-film photonic crystal super-lattice.
生物超微弱发光的产生机理是生物光子学研究领域的基本课题。
The mechanism of biophoton emission is a basic subject of ultra weak biophoton emission research.
分析了生物超微弱发光的光子图像特点,从而看出对光子图像进行统计研究的必要。
The probability of detection of ultra weak bioluminescence in the photon count imaging system and limit of detection of photon image are discussed.
本文对光子晶体光纤扩谱产生的超连续光学频率梳的脉冲-脉冲相位相干性进行了实验研究。
In this paper we reported an experimental study of the pulse-to pulse phase coherence of an PCF generated super-continuum.
理论上设计了一系列一维非周期光子晶体,这些光子晶体具有超窄带滤波的特性。
A series of one-dimensional disordered photonic crystals were designed for use as filters.
这种结构的光子晶体可以用来制作超窄带滤波器和多通道窄带滤波器,有望在光通信超密度波分复用技术和光学信息精密测量技术中获得广泛应用。
The concept of quasiperiodic one-dimension photonic crystal nanometer film is proposed, and research finds that it can be applied to realize optic narrowband filter.
平面波超元算法的结果表明:(1)平板光子晶体导模中存在带隙。
The results of the plane wave method with super cell shows: (1) photonic band gaps exist in the guided modes of the photonic crystal slabs.
介绍了基于光子晶体的全光开关的各种实现方法,并详细论述了超快速光子晶体全光开关的实验研究状况。
The methods of the realization of photonic crystal switching and the progresses of the study of ultrafast photonic crystal all-optical switching are discussed.
建立了超冷V型三能级原子注入的微波激射的腔场光子统计的量子理论 ,研究了原子相干性对光子统计性质的影响 。
The effects of the atomic coherence on the photon statistics of the micromaser injected with ultra-cold V-type three-level atoms are studied.
光子晶体光纤的优异性能使其成为产生超荧光的优秀介质。
The properties of photonic crystal fiber (PCF) made it an excellent medium for supercontinuum generation.
实验装置由超纠缠光子源,线性光学器件和常规的光子探测器组成。
This set-up is made of hyper-entangled photon source, linear optical elements and conventional photon detectors.
讨论了生物超微弱发光的统计分布,分析了生物超微弱发光在光子成像系统中的探测概率和光子图像的探测极限。
Image quality is improved. The probability of detection of ultra-weak bioluminescence in the photon count imaging system and limit of detection of photon image are discussed.
例如,光子晶体光纤中超连续光谱产生在光相干层析技术、高精密光学测量等领域有很重要应用价值。
Supercontinuum generation in PCFs has subsequently been widely applied in interdisciplinary fields such as optical coherence tomography and optical frequency metrology.
例如,光子晶体光纤中超连续光谱产生在光相干层析技术、高精密光学测量等领域有很重要应用价值。
Supercontinuum generation in PCFs has subsequently been widely applied in interdisciplinary fields such as optical coherence tomography and optical frequency metrology.
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