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Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)01:20

Spin–Spin Coupling: Two-Bond Coupling (Geminal Coupling)

1.0K
Two NMR-active nuclei bonded to a central atom can be involved in geminal or two-bond coupling. Geminal coupling is commonly seen between diastereotopic protons in chiral molecules and unsymmetrical alkenes, among others.
The central atom need not be NMR-active because its electrons are affected by the electron polarization of the spin-active atoms. However, spin information is transmitted less effectively than in one-bond coupling, and 2J values are usually weaker than 1J values. The energy of...
1.0K
Spin–Spin Coupling: One-Bond Coupling01:17

Spin–Spin Coupling: One-Bond Coupling

957
Coupling interactions are strongest between NMR-active nuclei bonded to each other, where spin information can be transmitted directly through the pair of bonding electrons. While nuclei polarize their electrons to the opposite spins, the bonding electron pair has opposite spins. Configurations with antiparallel nuclear spins are expected to be lower in energy. When coupling makes antiparallel states more favorable, J is considered to have a positive value. The one-bond coupling constant, 1J,...
957
Spin–Spin Coupling Constant: Overview01:08

Spin–Spin Coupling Constant: Overview

911
In bromoethane, the three methyl protons are coupled to the two methylene protons that are three bonds away. In accordance with the n+1 rule, the signal from the methyl protons is split into three peaks with 1:2:1 relative intensities. The methylene protons appear as a quartet, with the relative intensities of 1:3:3:1.
Qualitatively, any spin plus-half nucleus polarizes the spins of its electrons to the minus-half state. Consequently, the paired electron in the hydrogen–carbon bond must...
911
Spin–Spin Coupling: Three-Bond Coupling (Vicinal Coupling)01:22

Spin–Spin Coupling: Three-Bond Coupling (Vicinal Coupling)

1.1K
Vicinal or three-bond coupling is commonly observed between protons attached to adjacent carbons. Here, nuclear spin information is primarily transferred via electron spin interactions between adjacent C‑H bond orbitals. This generally favors the antiparallel arrangement of spins, so 3J values are usually positive.
The extent of coupling depends on the C‑C bond length, the two H‑C‑C angles, any electron-withdrawing substituents, and the dihedral angle between the...
1.1K
π Electron Effects on Chemical Shift: Aromatic and Antiaromatic Compounds01:14

π Electron Effects on Chemical Shift: Aromatic and Antiaromatic Compounds

1.2K
In aromatic compounds, such as benzene, the circulation of (4n + 2) π-electrons sets up a diamagnetic or diatropic ring current around the perimeter of the molecule. This current induces a magnetic field that opposes the external field inside the ring and reinforces it on the outside. The protons in benzene are deshielded and exhibit high chemical shifts in the range 6.5–8.5 ppm. The shielding effect at the center of the ring is evident in complex aromatic molecules, such as...
1.2K
Atomic Nuclei: Nuclear Spin State Overview01:03

Atomic Nuclei: Nuclear Spin State Overview

934
NMR-active nuclei have energy levels called 'spin states' that are associated with the orientations of their nuclear magnetic moments. In the absence of a magnetic field, the nuclear magnetic moments are randomly oriented, and the spin states are degenerate. When an external magnetic field is applied, the spin states have only 2 + 1 orientations available to them. A proton with = ½ has two available orientations. Similarly, for a quadrupolar nucleus with a nuclear spin value of...
934

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相关实验视频

Updated: Jun 26, 2025

Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source
12:19

Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source

Published on: April 4, 2017

8.4K

在Rashba旋转轨道合的螺丝脱位 - - 阿哈罗诺夫-博姆量子环.

Mijanur Islam1, Saurabh Basu2

  • 1Department of Physics, Indian Institute of Technology Guwahati, Guwahati, Assam, 781039, India. mislam@iitg.ac.in.

Scientific reports
|May 16, 2024
PubMed
概括

量子环中的螺丝失位等拓学缺陷会产生可调节的恒流. 这些电流受到磁场和旋转轨道合的影响,显示了旋转电子设备的潜力.

科学领域:

  • 凝聚物质物理学 凝聚物质物理学
  • 这就是Spintronics.
  • 量子力学就是量子力学.

背景情况:

  • 阿哈罗诺夫-博姆量子环对磁流非常敏感.
  • 拓缺陷可以改变电子属性.
  • 旋转轨道合和磁场在量子系统中起着至关重要的作用.

研究的目的:

  • 研究螺丝失位对阿哈罗诺夫-博姆量子环的影响.
  • 分析磁场的影响和Rashba旋转轨道合.
  • 探索这些系统在自旋电子应用中的潜力.

主要方法:

  • 量子环与螺杆位移的理论研究.
  • 对持久电荷和自旋电流的分析.
  • 检查外部磁场和旋转轨道合的影响.

主要成果:

  • 螺丝失位诱导有效的流量,修改持久的电流振荡.
  • 位移导致相位移和散射效应.
  • 观察到与伯格斯向量的电流线性下降;确定了反流现象.
  • 奇拉效应和奇拉电流是由扭曲引起的.

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Experimental Methods for Spin- and Angle-Resolved Photoemission Spectroscopy Combined with Polarization-Variable Laser
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Experimental Methods for Spin- and Angle-Resolved Photoemission Spectroscopy Combined with Polarization-Variable Laser

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Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
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Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform

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相关实验视频

Last Updated: Jun 26, 2025

Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source
12:19

Measurement of Quantum Interference in a Silicon Ring Resonator Photon Source

Published on: April 4, 2017

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Experimental Methods for Spin- and Angle-Resolved Photoemission Spectroscopy Combined with Polarization-Variable Laser
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Scalable Quantum Integrated Circuits on Superconducting Two-Dimensional Electron Gas Platform
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结论:

  • 螺丝失位提供了一种在量子环中调整持久电流的方法.
  • 该系统展示了因可调节的自旋电流而导致自旋电子设备的潜力.
  • 由扭曲引起的螺旋电流具有重要的自旋电子应用.