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相关概念视频

The de Broglie Wavelength02:32

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In the macroscopic world, objects that are large enough to be seen by the naked eye follow the rules of classical physics. A billiard ball moving on a table will behave like a particle; it will continue traveling in a straight line unless it collides with another ball, or it is acted on by some other force, such as friction. The ball has a well-defined position and velocity or well-defined momentum, p = mv, which is defined by mass m and velocity v at any given moment. This is the typical...
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Spin systems where the difference in chemical shifts of the coupled nuclei is greater than ten times J are called first-order spin systems. These nuclei are weakly coupled, and their chemical shifts and coupling constant can generally be estimated from the well-separated signals in the spectrum.
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Recall that a particle in equilibrium is one for which the external forces are balanced. Static equilibrium involves objects at rest, and dynamic equilibrium involves objects in motion without acceleration; but it is important to remember that these conditions are relative. For instance, an object may be at rest when viewed from one frame of reference, but that same object would appear to be in motion when viewed by someone moving at a constant velocity.
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The vacuum level denotes the energy threshold required for an electron to escape from a material surface. It is usually positioned above the conduction band of a semiconductor and acts as a benchmark for comparing electron energies within various materials.
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First Law: Particles in One-dimensional Equilibrium01:10

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Newton's first law of motion states that a body at rest remains at rest, or if in motion, remains in motion at constant velocity, unless acted on by a net external force. It also states that there must be a cause for any change in velocity (a change in either magnitude or direction) to occur. This cause is a net external force. For example, consider what happens to an object sliding along a rough horizontal surface. The object quickly grinds to a halt, due to the net force of friction. If...
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超扩散量子步行背后的噪声相关性

Graça R M de Almeida1, N Amaral1, A R C Buarque1,2

  • 1Instituto de Física, <a href="https://ror.org/00dna7t83">Universidade Federal de Alagoas</a>, 57072-900 Maceió, Alagoas, Brazil.

Physical review. E
|July 18, 2024
PubMed
概括
此摘要是机器生成的。

量子步行中的相关噪声可以将行为从局部化转变为超扩散传播. 这种新兴的超扩散在空间和时间噪声状态中都被观察到,为量子运输提供了新的见解.

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科学领域:

  • 量子物理学的量子物理学
  • 量子信息科学是一种量子信息科学.
  • 凝聚物质理论 凝聚物质理论

背景情况:

  • 量子步行是量子计算和仿真的基本模型.
  • 标准模型通常假设无关的噪声,这可能不反映现实的情景.
  • 了解噪声效应对于强大的量子技术至关重要.

研究的目的:

  • 为了研究短距离相关噪声对离散时间量子步行的影响.
  • 探索噪声相关性如何影响量子传输特性.
  • 分析从局部到超扩散行为的过渡.

主要方法:

  • 在噪声模型中引入二进制对相关性.
  • 检查量子门的同质性.
  • 在空间和时间噪声制度中分析运输特性.
  • 数字和分析计算. 数字和分析计算.

主要成果:

  • 噪声相关性驱动量子步行从指数定位到超扩散扩散.
  • 超扩散指数显示了空间不均度的近不变性.
  • 时间噪声相关性诱导出现的超扩散,取代了标准的扩散模式.
  • 一些量子门对相关性表现出不敏感.

结论:

  • 相关噪声从根本上改变了量子步行动态,促进了超扩散.
  • 这些发现提供了对量子传输机制的洞察,这些机制与无序系统相关.
  • 这项工作为研究在更现实的噪音条件下量子步行提供了一个框架.