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The Quantum-Mechanical Model of an Atom02:45

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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.
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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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In the absence of an external magnetic field, nuclear spin states are degenerate and randomly oriented. When a magnetic field is applied, the spins begin to precess and orient themselves along (lower energy) or against (higher energy) the direction of the field. At equilibrium, a slight excess population of spins exists in the lower energy state. Because the direction of the magnetic field is fixed as the z-axis,  the precessing magnetic moments are randomly oriented around the z-axis.
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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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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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在具有非局部相互作用的复杂量子系统中的异常动力学.

P Trajanovski1,2, E K Lenzi3, I Petreska1

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概括
此摘要是机器生成的。

本研究引入了一种泛化的施罗丁格方程,使用分数导数和记忆效应来建模异常传输和非局部相互作用. 这些发现揭示了新的量子现象和时空动态中独特的局部化行为.

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科学领域:

  • 量子力学就是量子力学.
  • 数学物理 数学物理
  • 非线性动力学是一种非线性动力学.

背景情况:

  • 异常运输现象需要超越标准微分方程的先进数学模型.
  • 在各种量子系统中,时间非局部性和远程相互作用至关重要.

研究的目的:

  • 提出和研究一个概括的施罗丁格方程,包括分数导数和记忆效应.
  • 分析非局部潜能和记忆对量子力学的影响.
  • 为拟议的模型推导和探索分析解决方案.

主要方法:

  • 为异常运输引入一个分数Riesz导数.
  • 包括一个内存内核用于时间非局部性.
  • 使用整数运算符建模远程交互.
  • 应用绿色函数方法来导出分析解决方案.

主要成果:

  • 使用绿色函数方法推导分析解决方案.
  • 识别因分数动态,非局部潜能和记忆效应的相互作用而产生的新型量子现象.
  • 在格林函数演变中观察新的局部最大值.
  • 在时空领域中对不同定位行为进行表征.

结论:

  • 概括的施罗丁格方程有效地捕捉了异常的运输和非局部效应.
  • 分数动力学,记忆和远程相互作用的相互作用导致了独特的量子行为.
  • 这些发现为复杂的传输和相互作用机制的量子力学提供了新的见解.