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Atomic Structure01:33

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Atoms — and the protons, neutrons, and electrons that compose them — are extremely small. For example, a carbon atom weighs less than 2 × 10−23 g. When describing the properties of tiny objects such as atoms, we use appropriately small units of measure, such as the atomic mass unit (amu). The amu was originally defined based on hydrogen, the lightest element, then later in terms of oxygen. Since 1961, it has been defined with regard to the most abundant isotope of carbon, atoms of which...
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Electron Microscope Tomography and Single-particle Reconstruction01:07

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Transmission electron microscopy (TEM) can be used to determine the 3D structure of biological samples with the help of techniques such as electron microscope tomography and single-particle reconstruction. While single-particle reconstruction can examine macromolecules and macromolecular complexes in vitro conditions only, tomography permits the study of cell components or small cells in vivo.
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The oral cavity, or the mouth, is a complex structure in humans that plays a vital role in our day-to-day lives. Its role is not only in chewing and swallowing food; it also plays a role in speech and facial expressions.
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An atomic orbital represents the three-dimensional regions in an atom where an electron has the highest probability to reside. The radial distribution function indicates the total probability of finding an electron within the thin shell at a distance r from the nucleus. The atomic orbitals have distinct shapes which are determined by l, the angular momentum quantum number. The orbitals are often drawn with a boundary surface, enclosing densest regions of the cloud.
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Author Spotlight: Introduction to Active Probe Atomic Force Microscopy with Quattro-Parallel Cantilever Arrays
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一个空腔阵列显微镜用于并行单原子接口.

Adam L Shaw1,2, Anna Soper2, Danial Shadmany1

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概括
此摘要是机器生成的。

研究人员开发了一种空腔阵列显微镜,使单个原子-空腔合能够进行增强的量子信息处理. 这一突破促进了可扩展的量子网络和更快,非破坏性的原子测量.

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科学领域:

  • 量子科学 是一个量子科学.
  • 量子光学是一种量子光学.
  • 原子物理 原子物理

背景情况:

  • 中性原子阵列和光腔量子电动力学是关键的实验量子科学平台.
  • 由于全球空洞模式,现有的混合系统在可扩展性和可寻址性方面面临限制.
  • 将这些平台结合起来,有望在量子网络和原子测量方面取得进步.

研究的目的:

  • 引入一个新的实验平台,将中性原子阵列与单独的光学空洞集成在一起.
  • 通过实现可扩展的,并行的原子腔相互作用来克服以前混合系统的局限性.
  • 展示快速,非破坏性读取,并探索量子网络中的应用.

主要方法:

  • 开发了一个自由空间腔体几何学与内腔镜,创建一个腔体阵列显微镜.
  • 集成超过40个单独的光学腔与一个二维中性原子阵列.
  • 实现了微米尺度模式腰部和间距,与原子数组尺寸兼容.

主要成果:

  • 在整个阵列中展示了均的原子-腔合.
  • 在毫秒时间尺度上实现了单个原子的快速,非破坏性,并行读取.
  • 展示了用于网络应用的光纤阵列接口和一个下一代平台,拥有500多个空洞.

结论:

  • 空腔阵列显微镜解锁了许多空腔量子电动力学的制度.
  • 这个平台使得可扩展的量子网络与中性原子数组成为可能.
  • 为混合量子系统和先进的量子信息处理开辟了新的前沿.