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Ferromagnetism01:31

Ferromagnetism

2.5K
Materials like iron, nickel, and cobalt consist of magnetic domains, within which the magnetic dipoles are arranged parallel to each other. The magnetic dipoles are rigidly aligned in the same direction within a domain by quantum mechanical coupling among the atoms. This coupling is so strong that even thermal agitation at room temperature cannot break it. The result is that each domain has a net dipole moment. However, some materials have weaker coupling, and are ferromagnetic at lower...
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Magnetostatic Boundary Conditions01:28

Magnetostatic Boundary Conditions

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An electric field suffers a discontinuity at a surface charge. Similarly, a magnetic field is discontinuous at a surface current. The perpendicular component of a magnetic field is continuous across the interface of two magnetic mediums. In contrast, its parallel component, perpendicular to the current, is discontinuous by the amount equal to the product of the vacuum permeability and the surface current. Like the scalar potential in electrostatics, the vector potential is also continuous...
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The Fluid Mosaic Model01:34

The Fluid Mosaic Model

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The fluid mosaic model was first proposed as a visual representation of research observations. The model comprises the composition and dynamics of membranes and serves as a foundation for future membrane-related studies. The model depicts the structure of the plasma membrane with a variety of components, which include phospholipids, proteins, and carbohydrates. These integral molecules are loosely bound, defining the cell’s border and providing fluidity for optimal function.
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Magnetic Susceptibility and Permeability01:31

Magnetic Susceptibility and Permeability

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In linear magnetic materials, like paramagnets and diamagnets, magnetization is proportional to the magnetic field intensity. The constant of proportionality, a dimensionless number, is called magnetic susceptibility. The value of the susceptibility depends on the type of material.
When diamagnetic materials are placed under an external magnetic field, the moments opposite to the field are induced. Hence, the susceptibility for diamagnets has a minimal negative value of 10-5–10-6. Since...
1.5K
Potential Due to a Magnetized Object01:24

Potential Due to a Magnetized Object

368
Magnetic dipoles in magnetic materials are aligned when placed under an external magnetic field. For paramagnets and ferromagnets, dipole alignment occurs in the direction of the magnetic field. However, the dipoles align opposite to the field in the case of diamagnets. This state of magnetic polarization due to the external field is called magnetization. Magnetization is defined as the dipole moment per unit volume. It plays a similar role to polarization in electrostatics.
The vector...
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Paramagnetism01:30

Paramagnetism

2.6K
Paramagnets are materials with unpaired electrons that possess a finite magnetic moment. In the absence of a magnetic field, these moments are randomly oriented, and thus the net moment is zero. Under an external field, a torque acting on the moments tends to align them along the field's direction. However, the random thermal motion of electrons produces a torque opposite to the external field and tries to disorient the moments. These two competing effects align only a few moments along the...
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Related Experiment Video

Updated: Oct 4, 2025

Forming, Confining, and Observing Microtubule-Based Active Nematics
08:37

Forming, Confining, and Observing Microtubule-Based Active Nematics

Published on: January 13, 2023

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Ferromagnetic nematics: A macroscopic two-fluid description.

Harald Pleiner1, Helmut R Brand1

  • 1Max Planck Institute for Polymer Research, 55021 Mainz, Germany.

The Journal of Chemical Physics
|February 2, 2022
PubMed
Summary
This summary is machine-generated.

We describe a ferromagnetic nematic where magnetic and nematic components move independently. This relative motion leads to unique cross-couplings, generating temperature gradients from velocity and tilting magnetization via shear flow.

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Last Updated: Oct 4, 2025

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Area of Science:

  • Condensed matter physics
  • Soft matter physics
  • Ferromagnetism

Background:

  • Ferromagnetic nematics exhibit complex behaviors due to coupled magnetic and orientational order.
  • Understanding the dynamics of these systems is crucial for developing novel magnetic and optical materials.

Purpose of the Study:

  • To present a macroscopic dynamic description of a ferromagnetic nematic with relative motion between magnetic and nematic components.
  • To explore the novel cross-couplings arising from differing symmetry properties of involved vectorial quantities.

Main Methods:

  • Macroscopic dynamic description.
  • Analysis of symmetry properties under spatial inversion and time reversal.
  • Investigation of cross-couplings involving relative velocity.

Main Results:

  • Demonstrated that transverse temperature gradients generate transverse relative velocities, and vice versa.
  • Showed that shear flow in relative velocity can lead to a stationary tilt of magnetization.

Conclusions:

  • The relative velocity in ferromagnetic nematics is a slowly relaxing variable with significant cross-couplings.
  • New phenomena, such as temperature gradient-velocity interconversion and shear-induced magnetization tilting, are predicted and discussed.