How Do Phonons Interact with Dielectrics and Non-Monocrystalline Materials?

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Discussion Overview

The discussion centers on the interaction of phonons with dielectrics and non-monocrystalline materials, exploring the existence and propagation of phonons in these contexts. Participants examine theoretical aspects, practical implications, and seek resources for further understanding.

Discussion Character

  • Exploratory
  • Technical explanation
  • Conceptual clarification
  • Debate/contested

Main Points Raised

  • Some participants express uncertainty about how phonons exist in dielectrics and non-monocrystalline materials, particularly in glass.
  • One participant describes a model of vibrational excitations in a crystal using Hydrogen molecules as an analogy.
  • Another participant questions whether phonons can propagate in glass and discusses the implications of non-crystallinity on phonon modes.
  • A participant argues that sound can propagate in gases and polycrystals, suggesting that phonons can exist even if they are not well-defined in non-monocrystalline materials.
  • There is a discussion about the phonon density of states in glass and the complexity of its structure, noting that not all dielectrics are polycrystalline.
  • One participant seeks further resources to understand the interaction of phonons with electromagnetic waves, indicating a desire for deeper knowledge in the subject.

Areas of Agreement / Disagreement

Participants do not reach a consensus on the nature of phonons in dielectrics and non-monocrystalline materials, with multiple competing views and uncertainties expressed throughout the discussion.

Contextual Notes

Participants mention the complexity of phonon behavior in different materials, including the implications of non-crystallinity and the nature of phonon modes in glass. There are references to the phonon band structure and its relation to electromagnetic wave interactions, but these aspects remain unresolved.

Who May Find This Useful

This discussion may be of interest to those studying solid-state physics, materials science, or anyone looking to understand the behavior of phonons in various materials, particularly in relation to dielectrics and non-monocrystalline structures.

androz
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Hi everybody.
I know a little about phonons in a lattice such as semiconductors, which are energy quanta of the vibrational states of the crystal, but I can't figure out how a phonon can exist in a dielectric or even in a non monocristalline material. Can somenone help me or advise me a book on the subject ?
 
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Imagine a Hydrogen molecule, with just two protons and a pair of electrons. The protons can have vibrational exitations much like two weights coupled by a spring, with the electron pair acting as the spring. Now put many Hydrogen molecules together to form a crystal and you can have local or collective exitations of the protons in the crystal.
 
Hi Tyger
Thanks for your answer, but I was wondering of what appens in a dielectric, I mean in a glass (such as silica). I agree that locally it is a crystal so perhaps we can speak of phonons, but locally. Moreover, can a phonon propagate ? Surely in a crystal, but can it propagate between two joined crystals, so in a glass ?
 
androz said:
Hi Tyger
Thanks for your answer, but I was wondering of what appens in a dielectric, I mean in a glass (such as silica). I agree that locally it is a crystal so perhaps we can speak of phonons, but locally. Moreover, can a phonon propagate ? Surely in a crystal, but can it propagate between two joined crystals, so in a glass ?

Let's go to one extreme where there ISN'T any crystalinity - gas. We already know that sound can propagate in gas simply via the transfer of vibration via collision. Now, go back to a polycrystal. The fact that they are not in a single crystal only imply that the phonon modes are not that well-defined as in single crystals. However, it doesn't mean that there no phonons whatsover. Sound still can propagate through a dielectric (which again is nothing more than a semicoductor but with a large band gap - so if you have no problems with a semiconductor in the first place, you shouldn't have a problem with dielectric in general).

As long as they are some form of bonding or scattering, that should be a sufficient mechanism for such phonons to exist. It is just that such modes are rather very dispersive in a polycrystal.

Zz.
 
Thank you Zz
do you mean that in a glass for example (phonon that are not well defined) the band structure of the phonons is extended and that there are more energy band permitted ?
 
androz said:
Thank you Zz
do you mean that in a glass for example (phonon that are not well defined) the band structure of the phonons is extended and that there are more energy band permitted ?

Glass, or "glassy" state, is one of the most complex structure in condensed matter. So I'm not sure how in-depth you want the explanation to be. The phonon density of state of glass isn't that trivial either. However, take note that you can have a crystalline silicate (or glass). So not all dielectric are polycrystalline.

When you have well-defined phonon modes, then you can have absorption of that frequency of the EM spectra. The fact that glass is often transparent over the visible frequency range means that there is a broad phonon band over such freq. range but no well-defined modes.

Zz.
 
Thank you very much Zz. The phonons ever wake up my interest but I didn't ever have a good idea of how it can interact whith EM wave. I think I understant better now. How could I go farther in this area, just for my culture ? Are there articles or books I could read on the subject ?
 
androz said:
Thank you very much Zz. The phonons ever wake up my interest but I didn't ever have a good idea of how it can interact whith EM wave. I think I understant better now. How could I go farther in this area, just for my culture ? Are there articles or books I could read on the subject ?

Not knowing what your background in physics is, I can't give you specific recommendations. You may, if you haven't done so, pick up an elementary solid state physics text. The fundamentals of phonons and normal modes are usually covered in those texts.

Zz.
 

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