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Propagation of Waves01:07

Propagation of Waves

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When a wave propagates from one medium to another, part of it may get reflected in the first medium, and part of it may get transmitted to the second medium. In such a case, the interface of the two mediums can be considered as a boundary that is neither fixed nor free.
Consider a scenario where a wave propagates from a string of low linear mass density to a string of high linear mass density. In such a case, the reflected wave is out of phase with respect to the incident wave, however the...
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Spin–Spin Coupling Constant: Overview01:08

Spin–Spin Coupling Constant: Overview

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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...
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Magnetic Damping01:17

Magnetic Damping

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Eddy currents can produce significant drag on motion, called magnetic damping. For instance, when a metallic pendulum bob swings between the poles of a strong magnet, significant drag acts on the bob as it enters and leaves the field, quickly damping the motion.
If, however, the bob is a slotted metal plate, the magnet produces a much smaller effect. When a slotted metal plate enters the field, an emf is induced by the change in flux; however, it is less effective because the slots limit the...
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Velocity and Acceleration of a Wave00:51

Velocity and Acceleration of a Wave

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A wave propagates through a medium with a constant speed, known as a wave velocity. It is different from the speed of the particles of the medium, which is not constant. In addition, the velocity of the medium is perpendicular to the velocity of the wave. The variable speed of the particles of the medium implies that there must be acceleration associated with it. 
The velocity of the particles can be obtained by taking the partial derivative of the position equation with respect to time....
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Damped Oscillations01:07

Damped Oscillations

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In the real world, oscillations seldom follow true simple harmonic motion. A system that continues its motion indefinitely without losing its amplitude is termed undamped. However, friction of some sort usually dampens the motion, so it fades away or needs more force to continue. For example, a guitar string stops oscillating a few seconds after being plucked. Similarly, one must continually push a swing to keep a child swinging on a playground.
Although friction and other non-conservative...
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Types of Damping01:20

Types of Damping

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If the amount of damping in a system is gradually increased, the period and frequency start to become affected because damping opposes, and hence slows, the back and forth motion (the net force is smaller in both directions). If there is a very large amount of damping, the system does not even oscillate; instead, it slowly moves toward equilibrium. In brief, an overdamped system moves slowly towards equilibrium, whereas an underdamped system moves quickly to equilibrium but will oscillate about...
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Related Experiment Video

Updated: Nov 9, 2025

Microparticle Manipulation by Standing Surface Acoustic Waves with Dual-frequency Excitations
06:51

Microparticle Manipulation by Standing Surface Acoustic Waves with Dual-frequency Excitations

Published on: August 21, 2018

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Dynamic control of spin-wave propagation.

Jan-Niklas Toedt1, Wolfgang Hansen2

  • 1Institute of Nanostructure and Solid State Physics, University of Hamburg, Luruper Chaussee 149, 22761, Hamburg, Germany. jtoedt@physnet.uni-hamburg.de.

Scientific Reports
|April 10, 2021
PubMed
Summary

Researchers developed a method to control spin-wave packet propagation using magnetic fields. This technique allows for dynamic control, enabling the stopping and rebound of spin waves.

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Area of Science:

  • Condensed matter physics
  • Magnonics

Background:

  • Spin waves are fundamental excitations in magnetic materials.
  • Controlling spin-wave propagation is crucial for developing novel spintronic devices.

Purpose of the Study:

  • To present a novel method for dynamic control of spin-wave packet propagation.
  • To demonstrate the manipulation of spin-wave refraction and frequency using external magnetic fields.

Main Methods:

  • Utilizing a time-varying magnetic field to create a temporal inhomogeneity.
  • Investigating the refraction of spin waves at this inhomogeneity.
  • Analyzing the conservation of spin-wave impulse and frequency shifts.

Main Results:

  • Successfully demonstrated the dynamic control of spin-wave packet propagation.
  • Achieved refraction of spin waves at a spatially invariant temporal inhomogeneity.
  • Observed the stopping and rebound of a traveling Backward-Volume type spin-wave packet.

Conclusions:

  • The proposed method offers a new pathway for manipulating spin waves.
  • This technique has potential applications in developing advanced magnonic devices and information processing.
  • The ability to control spin-wave dynamics opens possibilities for novel functionalities.