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相关概念视频

Quantum Numbers02:43

Quantum Numbers

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It is said that the energy of an electron in an atom is quantized; that is, it can be equal only to certain specific values and can jump from one energy level to another but not transition smoothly or stay between these levels.
49.4K
Pascal's Law01:04

Pascal's Law

11.2K
In 1653, the French philosopher and scientist Blaise Pascal published "Treatise on the Equilibrium of Liquids," which discussed the principles of static fluids. A static fluid is a fluid that is not in motion. When a fluid is not flowing, we say that the fluid is in static equilibrium. If the fluid is water, we say it is in hydrostatic equilibrium. For a fluid in static equilibrium, the net force on any part of the fluid must be zero; otherwise, the fluid will start to flow. Pascal...
11.2K
2D NMR: Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC)01:19

2D NMR: Heteronuclear Single-Quantum Correlation Spectroscopy (HSQC)

1.4K
Heteronuclear single-quantum correlation spectroscopy (HSQC) is a 2D NMR technique that reveals one-bond correlations between hydrogen and a heteronucleus. The HSQC experiment is similar to the heteronuclear correlation experiment (HETCOR) but is more sensitive. In the HSQC spectrum, the proton chemical shift is plotted on the horizontal F2 axis, while the 13C chemical shift is plotted on the vertical F1 axis. The corresponding proton and 13C spectra are also shown. The HSQC contour plot does...
1.4K
Application of Pascal's Law01:03

Application of Pascal's Law

10.6K
Pascal's experimentally proven observations—that a change in pressure applied to an enclosed fluid is transmitted undiminished throughout the fluid and to the walls of its container—provide the foundations for hydraulics, one of the most important developments in modern mechanical technology.
Hydraulic systems are used to operate automotive brakes, hydraulic jacks, and numerous other mechanical systems. We can derive a relationship between the forces in a simple hydraulic system...
10.6K
The Quantum-Mechanical Model of an Atom02:45

The Quantum-Mechanical Model of an Atom

56.7K
Shortly after de Broglie published his ideas that the electron in a hydrogen atom could be better thought of as being a circular standing wave instead of a particle moving in quantized circular orbits, Erwin Schrödinger extended de Broglie’s work by deriving what is now known as the Schrödinger equation. When Schrödinger applied his equation to hydrogen-like atoms, he was able to reproduce Bohr’s expression for the energy and, thus, the Rydberg formula governing hydrogen spectra.
56.7K
Correlations02:20

Correlations

35.8K
Correlation means that there is a relationship between two or more variables (such as ice cream consumption and crime), but this relationship does not necessarily imply cause and effect. When two variables are correlated, it simply means that as one variable changes, so does the other. We can measure correlation by calculating a statistic known as a correlation coefficient. A correlation coefficient is a number from -1 to +1 that indicates the strength and direction of the relationship between...
35.8K

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相关实验视频

Updated: Jan 22, 2026

Correlative Light- and Electron Microscopy Using Quantum Dot Nanoparticles
11:16

Correlative Light- and Electron Microscopy Using Quantum Dot Nanoparticles

Published on: August 7, 2016

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在混沌量子系统中对相关函数的Lanczos-Pascal方法.

Merlin Füllgraf1, Jiaozi Wang1, Robin Steinigeweg1

  • 1University of Osnabrück, Department of Mathematics/Computer Science/Physics, D-49076 Osnabrück, Germany.

Physical review letters
|January 20, 2026
PubMed
概括

我们介绍了一种在计算上便宜的方法,用兰佐斯系数在混乱的多体系统中近似计算时间相关函数. 该方法显示了快速的收,特别是在平滑结构系数的情况下,准确地描述了抑制振荡.

科学领域:

  • 量子力学就是量子力学.
  • 统计物理学的统计物理.
  • 计算物理学的计算物理.

背景情况:

  • 混乱的多体系统在计算时间相关函数方面存在挑战.
  • 热力学极限中的系统需要近似值.

研究的目的:

  • 开发一种有效的方法来近似时间相关函数.
  • 为了这个近似,使用兰佐斯系数.

主要方法:

  • 拟议的方法计算基于兰佐斯系数的近似值.
  • 对收的分析是根据使用的系数的数量进行的.

主要成果:

  • 这种方法在计算上是廉价的.
  • 当兰佐斯系数表现出一个光滑的结构时,可以观察到快速收.
  • 发现了对大型系统的动态典型性计算的一致性.

结论:

  • 该方法为时间相关函数提供了准确的近似值.
  • 相关函数可以很好地用这些系统中的几个模糊振荡来描述.

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Production and Targeting of Monovalent Quantum Dots

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