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- Pinning force is a force acting on a pinned object from a . In solid state physics, this most often refers to the vortex pinning, the pinning of the magnetic vortices (magnetic flux quanta, Abrikosov vortices) by different kinds of the defects in a type II superconductor. Important quantities are the individual maximal pinning force, which defines the depinning of a single vortex, and an average pinning force, which defines the depinning of the correlated vortex structures and can be associated with the (the maximal density of non-dissipative current). The interaction of the correlated vortex lattice with system of pinning centers forms the of the vortex matter in superconductors. This phase diagram is especially rich for high temperature superconductors (HTSC) where the processes are essential. The pinning mechanism is based on the fact that the amount of grain boundary area is reduced when a particle is located on a grain boundary. It is also assumed that particles are spherical and the particle-matrix interface is incoherent. When a moving grain boundary meets a particle at an angle , the particle exerts a pinning force on the grain boundary that is equal to ; with the particle radius and the energy per unit of grain boundary area. (en)
- 고체물리학에서 고정력(영어: pinning force 피닝 포스[*])은 자기 선속 고정과 같은 현상에서, 중심에서 고정된 물체에 작용하는 힘이다. 고체물리학에서 이것은 대부분 소용돌이 고정, 즉 속의 다른 종류의 결함에 의한 자기 소용돌이의 고정을 말한다.중요한 양은 개개의 최대 고정력이다. 그것은 하나의 소용돌이의 속박을 푸는 것과 평균 고정력을 정의한다. (ko)
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- 고체물리학에서 고정력(영어: pinning force 피닝 포스[*])은 자기 선속 고정과 같은 현상에서, 중심에서 고정된 물체에 작용하는 힘이다. 고체물리학에서 이것은 대부분 소용돌이 고정, 즉 속의 다른 종류의 결함에 의한 자기 소용돌이의 고정을 말한다.중요한 양은 개개의 최대 고정력이다. 그것은 하나의 소용돌이의 속박을 푸는 것과 평균 고정력을 정의한다. (ko)
- Pinning force is a force acting on a pinned object from a . In solid state physics, this most often refers to the vortex pinning, the pinning of the magnetic vortices (magnetic flux quanta, Abrikosov vortices) by different kinds of the defects in a type II superconductor. Important quantities are the individual maximal pinning force, which defines the depinning of a single vortex, and an average pinning force, which defines the depinning of the correlated vortex structures and can be associated with the (the maximal density of non-dissipative current). The interaction of the correlated vortex lattice with system of pinning centers forms the of the vortex matter in superconductors. This phase diagram is especially rich for high temperature superconductors (HTSC) where the processes are e (en)
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- 고정력 (ko)
- Pinning force (en)
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