Difference between revisions of "Quasiparticle"

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Quasi particles seem to be a largely untapped treasure trove of possible applications.
 
Quasi particles seem to be a largely untapped treasure trove of possible applications.
  
Many quasi-particles may only be able to support low power densities and thus be "only" suitable for sensing and computing applications <br>
+
Many quasi-particles may only be able to support low power densities and thus <br>
(quasiparticles involving nuclear spins come to mind) , <br>
+
be "only" suitable for sensing and computing applications (quasiparticles involving nuclear spins come to mind), <br>
while others (including phonons) will also be usable high power applications.
+
while others (including phonons) will also be usable in high power applications.
  
 
Especially interesting ones:
 
Especially interesting ones:

Revision as of 10:45, 1 June 2021

This article is a stub. It needs to be expanded.

Due to gem-gum technology allowing for precise and repeatable structuring of matter at the atomic scale
designing structures specifically for exploring the properties and possible application areas of quasi-particles
becomes experimentally very accessible.

Quasi particles seem to be a largely untapped treasure trove of possible applications.

Many quasi-particles may only be able to support low power densities and thus
be "only" suitable for sensing and computing applications (quasiparticles involving nuclear spins come to mind),
while others (including phonons) will also be usable in high power applications.

Especially interesting ones:

Some less known ones:

  • Polaron
  • Spinon
  • Magnon

Related

External links

Wikipedia

Whole classes of quasi-particles:

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