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Magnetic Field Of A Current Loop01:16

Magnetic Field Of A Current Loop

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Consider a circular loop with a radius a, that carries a current I. The magnetic field due to the current at an arbitrary point P along the axis of the loop can be calculated using the Biot-Savart law.
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Superconductor01:24

Superconductor

1.1K
A substance that reaches superconductivity, a state in which magnetic fields cannot penetrate, and there is no electrical resistance, is referred to as a superconductor. In 1911, Heike Kamerlingh Onnes of Leiden University, a Dutch physicist, observed a relation between the temperature and the resistance of the element mercury. The mercury sample was then cooled in liquid helium to study the linear dependence of resistance on temperature. It was observed that, as the temperature decreased, the...
1.1K
Force On A Current Loop In A Magnetic Field01:17

Force On A Current Loop In A Magnetic Field

3.2K
Magnetic forces on wires carrying current are most frequently applied in motors. A DC motor is a device that converts electrical energy into mechanical work. In motors, wire loops are enclosed in a magnetic field. When current flows through the loops, the magnetic field applies torque, which causes the shaft to rotate. The direction of the current is reversed once the loop's surface area is lined up with the magnetic field, causing a constant torque on the loop. During the process,...
3.2K
Torque On A Current Loop In A Magnetic Field01:13

Torque On A Current Loop In A Magnetic Field

4.0K
The most common application of magnetic force on current-carrying wires is in electric motors. These consist of loops of wire, which are placed between the magnets with a magnetic field. When current flows through the loops, the magnetic field applies torque, which causes the shaft to rotate, thus converting electrical energy to mechanical energy.
Consider a rectangular current-carrying loop containing N turns of wire, placed in a uniform magnetic field. The net force on a current-carrying loop...
4.0K
Types Of Superconductors01:28

Types Of Superconductors

972
A superconductor is a substance that offers zero resistance to the electric current when it drops below a critical temperature. Zero resistance is not the only interesting phenomenon as materials reach their transition temperatures. A second effect is the exclusion of magnetic fields. This is known as the Meissner effect. A light, permanent magnet placed over a superconducting sample will levitate in a stable position above the superconductor. High-speed trains that levitate on strong...
972
Magnetic Force On A Current-Carrying Conductor01:25

Magnetic Force On A Current-Carrying Conductor

4.1K
Moving charges experience a force in a magnetic field. Since the magnetic fields produced by moving charges are proportional to the current, a conductor carrying a current creates a magnetic field around it.
Consider a compass placed near a current-carrying wire. The wire experiences a force that aligns the needle of the compass tangentially around the wire. Thus, the current-carrying wire produces concentric circular loops of magnetic field. The magnetic field generated by a wire can be...
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Updated: Jun 23, 2025

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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由于循环电流的波动导致的超导性.

Grgur Palle1, Risto Ojajärvi1, Rafael M Fernandes2

  • 1Institute for Theoretical Condensed Matter Physics, Karlsruhe Institute of Technology, 76131 Karlsruhe, Germany.

Science advances
|June 14, 2024
PubMed
概括
此摘要是机器生成的。

波动的轨道磁力 (循环电流) 可以驱动非常规的超导,但不是在 cuprates 中看到的 d 波类型. 这些电流必须打破转换对称性,以适用于 cuprates.

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相关实验视频

Last Updated: Jun 23, 2025

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Comparison of Two Different Synthesis Methods of Single Crystals of Superconducting Uranium Ditelluride
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科学领域:

  • 凝聚物质物理学 凝聚物质物理学
  • 量子材料科学 量子材料科学

背景情况:

  • 轨道磁力和循环电流 (LCs) 是各种超导体 (如 cuprates) 中提出的机制.
  • 假设LC可以解释诸如cuprates中的伪间隙和d波超导等现象.

研究的目的:

  • 调查是否波动的单元细胞内LCs可以诱导非传统的超导.
  • 确定LCs在酸盐超导性中的作用.

主要方法:

  • 在单元细胞内波动的LC的理论分析.
  • 检查量子临界点 (QCP) 附近的配对通道.

主要成果:

  • 在QCP附近的所有配对通道中,奇偶平价LC具有排斥性.
  • 均等的LC波动会诱导非常规的配对,但在QCP附近不会放大.
  • 波动的单元细胞内LC不太可能导致d波超导.

结论:

  • 偶平度LC可以调解非传统的超导,与其他波动类型不同.
  • 单元内细胞LC不太可能是 cuprates 中 d 波超导的主要驱动因素.
  • 为了使LC在cuprates中具有相关性,它们可能需要打破翻译对称性.