UV-visible absorption spectrum reflect the strong quantum effects.
紫外可见吸收光谱体现了很强的量子效应。
Intel is now looking beyond 2020 at photonics and quantum effects such as spin.
到2020年,英特尔公司打算利用光子或量子的一些效应,比如自旋。
However, we still don't know to what degree photosynthesis benefits from these quantum effects.
然而,我们仍然不知道光合作用在这些量子效应上得到多大程度的好处。
The topics covered are the usual physics stuff: thermodynamics, quantum effects, and fault-tolerance.
该主题涉及常见的物理问题:热力学、量子效应和容错。
Graphene's perfect structure gives rise to exotic quantum effects that are being studied by physicists.
石墨烯的完美结构同时还能引发一些物理学家们正在研究的奇异量子效应。
Theoretical physicists have long believed that quantum effects will cause space-time to convulse wildly on the tiniest scales.
理论物理学家一直相信,在最微小的尺度上,量子效应将导致时空的杂乱震动。
Both born in Russia, Geim, 52, and Novoselov, just 36, showed that graphene has unusual properties related to quantum effects.
两位获奖者都出生于俄罗斯,格姆52岁,而诺沃塞洛夫才36岁,他们展示了石墨烯具有与量子效应关联的特殊性质。
Stephen Hawkings great discovery was that the mysterious regions in space we call black holes radiate heat through quantum effects.
斯蒂芬·霍金有过一个重大发现,即在太空中存在着一些神秘区域,我们称之为“黑洞”。由于存在量子效应,黑洞不断地在放射热量。
In some 1d discrete lattice systems, quantum effects play a crucial role to the properties of systems, and should be taken into account.
在一些一维离散晶格体系中,量子效应对体系的性质具有至关重要的作用,应该加以考虑。
Some quantum effects in the multiphoton interaction processes of a three-level A-shaped atom with two squeezed modes are studied in detail.
本文研究了具有A型跃迁结构的三能级原子与两个压缩态光场多光子相互作用过程中的一些量子效应。
The research has showed that some quantum efFects have appeared in the interaction of light with atoms, especially in the nonlinear process.
研究发现,在光场与原子相互作用过程中,会出现某些非经典效应。
The Higgs is crucial to the theory, but its predicted mass is subject to wild fluctuations caused by quantum effects from other fundamental particles.
希格斯色子是超对称性理论的关键所在,但是它的预期质量随着来自其他基本粒子的量子效应所引起的广度波动而发生变化。
Comparate with the available experiment value, it shows that the calculate result is lower, due to the lack of the consideration of quantum effects.
通过跟有效的实验结果对比,发现计算结果略低于实验值,这可能是由于在计算中没有考虑量子效应而导致的。
Some 35 years ago the British physicist Stephen Hawking argued that quantum effects would allow particles (including light) to escape from a black hole.
大约35年前,英国物理学家斯蒂芬·霍金(Stephen Hawking)声称量子效应会使粒子(包括光)从黑洞中逃逸。
With this in mind, scientists all over the world are researching technologies based on quantum effects that can be used to communicate and process information.
基于这一考虑,全世界的科学家都在研究基于量子效应实现通信和信息处理的技术。
At first, quantum effects, the fabrication methods of semi-conductor quantum dots and theory of energy bands of quantum dots have been introduced briefly.
首先介绍了量子点的量子效应,量子点的激子态和量子点的基本能带理论。
By linking the electrical currents of two superconductors large enough to be seen with the naked eye, researchers have extended the domain of observable quantum effects.
研究人员通过将两个大到肉眼能够观察的超导体的电流联系起来,拓展了可以观察到的量子效应的范围。
The unique characteristics of micro-size materials such as surface trait, the little size and quantum effects, make them have a wide application prospect in many aspects.
超细材料所具有的表面效应、小尺寸效应、量子效应等独特性能使其在许多方面有着广阔的应用前景。
We suggest a novel trap of trapping a neutral atom with static electric field of four point charges, and discuss the quantum effects of the cold neutral atom in the trap.
用四个点电荷构造一个简单、新颖的静电势阱,并基于含时薛定谔方程和有限差分时间域方法,研究冷原子在该势阱中的量子力学效应。
Scientists have observed such quantum effects and weirder ones in countless experiments with atoms, molecules, subatomic particles, light, electric currents, and even liquid helium.
科学家们利用原子、分子、亚原子微粒乃至液氮完成过无数实验,他们在实验中观测到了上述的量子效应以及其他更为怪异的现象。
The quantum effects of the mesoscopic circuit with capacitive coupling under the excited states of squeezed vacuum states are investigated by quantizing the circuit and diagonalizing its Hamiltonian.
通过量子化电容耦合电路和对角化电路哈密顿量,研究了介观电路在压缩真空态的激发态下的量子力学效应。
To see such effects, physicists first have to suck out every possible quantum and leave a beam in its least-energetic "ground state".
为了目睹这种效应,物理学家首先需要吸出每一个可能的量子,让光束处于能量最小的“基态”。
Such interference effects lie at the heart of many quantum phenomena, and find a natural description in Hilbert's mathematics.
干涉效果是很多量子现象的重点,并在希尔伯特的数学理论中找到了本质的描述。
It is the point at which particles have a minimum energy, determined by quantum mechanical effects, which is called the zero-point energy.
它指明了粒子有一个有量子机械作用而决定的能量最低值,我们将其称作为零点能。
The wafers can also be used to study some of the more peculiar effects of quantum mechanics.
这些晶片也可用来研究量子力学的更多奇特作用。
The second part involves voltage controlled slow light effects in asymmetry double quantum dots (QDs).
第二部分是在非对称的双量子点中电压调控的慢光效应。
The second part involves voltage controlled slow light effects in asymmetry double quantum dots (QDs).
第二部分是在非对称的双量子点中电压调控的慢光效应。
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