What Are the Key Uses and Historical Significance of E-k Diagrams?

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SUMMARY

E-k diagrams, also known as bandstructures, are crucial for understanding the electronic behavior of solids, distinguishing between conductors, insulators, and semiconductors based on energy gaps. They are extensively used in various applications, including transport calculations and optical transitions, due to their ability to represent the conservation of energy and momentum in interactions with photons and phonons. The historical significance of E-k diagrams dates back to their development in solid-state physics, where they have become essential tools for analyzing material properties. Key references for further study include works by Charles Kittle and Ashcroft & Mermin.

PREREQUISITES
  • Understanding of solid-state physics concepts
  • Familiarity with electronic band theory
  • Knowledge of energy and momentum conservation principles
  • Basic grasp of transport phenomena in materials
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  • Research advanced topics in electronic band structure analysis
  • Explore the role of E-k diagrams in semiconductor physics
  • Learn about computational methods for generating E-k diagrams
  • Investigate applications of E-k diagrams in photonics and optoelectronics
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Physicists, materials scientists, and engineers interested in solid-state physics, particularly those focusing on electronic properties and material behavior in various applications.

otaKu
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So I'm fairly new to them and I was wondering about the reasons it is used so extensively. It'd be great to have a discussion on its significance in various applications. When exactly did people start using these diagrams? How is it used in various parts of physics. What all information can it convey? What according to you are some lesser known facts about the E-k diagrams? Are there any great references to gain insight about them apart from the standard books like Charles Kittle, Ashcroft Mermin etc?! Looking forward to your inputs.
 
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otaKu said:
So I'm fairly new to them and I was wondering about the reasons it is used so extensively. It'd be great to have a discussion on its significance in various applications. When exactly did people start using these diagrams? How is it used in various parts of physics. What all information can it convey? What according to you are some lesser known facts about the E-k diagrams? Are there any great references to gain insight about them apart from the standard books like Charles Kittle, Ashcroft Mermin etc?! Looking forward to your inputs.
Your question is quite general and you had better put only one of them in the post. The E-K diagram includes vital information about the electronic behavior of solids. As a very simple example you can distinguish what the solid is (conductor, insulator, semiconductor) regarding the energy gap. Also this diagram can be used for transport calculations, optical transitions and many other goals.
 
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One of the most important reasons for E-k diagrams (or more commonly known as bandstructures) is because of interactions of a material with photons, phonons, etc. In all interactions, energy and momentum must be conserved. By using E-k diagrams, one can keep track of both energy and momentum at the same time and determine which processes are allowed and which are not.
 
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nmbr28Albert said:
One of the most important reasons for E-k diagrams (or more commonly known as bandstructures) is because of interactions of a material with photons, phonons, etc. In all interactions, energy and momentum must be conserved. By using E-k diagrams, one can keep track of both energy and momentum at the same time and determine which processes are allowed and which are not.
This was the sort of answer I was looking for. I guess I generalised the question a lot. Thank you for your inputs.
 

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