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相关概念视频

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GPI-anchoring is a post-translational, reversible protein modification that is ubiquitous in eukaryotes. Such proteins are primarily present on the exoplasmic leaflet of the plasma membrane.
GPI-anchor structure
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In order to make good decisions, we use our knowledge and our reasoning. Often, this knowledge and reasoning is sound and solid. However, sometimes, we are swayed by biases or by others manipulating a situation. For example, let’s say you and three friends wanted to rent a house and had a combined target budget of $1,600. The realtor shows you only very run-down houses for $1,600 and then shows you a very nice house for $2,000. Might you ask each person to pay more in rent to get the...
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Anchoring junctions are multiprotein complexes that help cells connect to other cells and the extracellular matrix. Anchoring junctions are present on the lateral and basal surfaces of cells, providing strong and flexible connections. Focal adhesions are often formed due to cell interactions with the ECM substrata, which initiate signal transduction via kinase cascades and other mechanisms. Together, they provide stability and tissue integrity. There are three types of anchoring junctions:...
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In the plasma membrane, the lipids forming the bilayer can also act as an anchor to tether proteins to the membrane. The three main types of lipid anchors found in eukaryotes are – prenyl groups, fatty acyl groups, and glycosylphosphatidylinositol or GPI groups. Prenyl and fatty acyl groups act as anchors on the cytosolic surface of the membrane, whereas GPI anchors proteins on the extracellular side.
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在石墨烯中的光场驱动电流

Takuya Higuchi1, Christian Heide1, Konrad Ullmann2

  • 1Laser Physics, Department of Physics, Friedrich-Alexander-Universität Erlangen-Nürnberg (FAU), Staudtstrasse 1, D-91058 Erlangen, Germany.

Nature
|September 28, 2017
PubMed
概括
此摘要是机器生成的。

研究人员展示了石墨烯中电子的光场控制,观察了秒速精确的电流变化. 这揭示了强场相互作用的转变,使得新的佩塔赫兹电子和带结构成像成为可能.

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科学领域:

  • 量子光学
  • 凝聚物质物理学
  • 材料科学

背景情况:

  • 用光场控制电子动态对于超快现象至关重要.
  • 强场光物质相互作用在介电材料中得到了很好的研究,但由于选,在导体中研究的较少.
  • 石墨烯具有独特的特性,如宽带响应和弱选,使其非常适合研究导体中的光场控制.

研究的目的:

  • 在单层石墨烯中研究光场驱动的电子动态.
  • 用激光脉冲的电场波形来探索电子电流的控制.
  • 了解石墨烯从弱场到强场的光物质相互作用模式.

主要方法:

  • 用双循环激光脉冲对单层石墨烯进行辐射.
  • 对激光脉冲的载体外相 (CEP) 感应电流的测量.
  • 作为驱动场幅度函数的电流逆转的分析.

主要成果:

  • 诱导电流对激光电场波形 (CEP) 的八秒级灵敏度.
  • 在~2V/nm的电流方向反转的观察,表明过渡到强场状态.
  • 证明Landau-Zener-Stückelberg次光周期干扰控制了激光极化可控制的强场电子动态.

结论:

  • 单层石墨烯可以在子光学周期时间尺度上控制电子动态的光场.
  • 观察到的现象是由连贯的量子干扰效应控制的.
  • 这些发现为带结构断层学和光场驱动的皮塔赫兹电子学的应用铺平了道路.