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3.5. Mott Transition in n-Type Crystals

  • I. M. Tsidilkovski
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Gapless Semiconductors, a New Class of Materials
This chapter is in the book Gapless Semiconductors, a New Class of Materials
© 2022 Walter de Gruyter GmbH, Berlin/Munich/Boston

© 2022 Walter de Gruyter GmbH, Berlin/Munich/Boston

Chapters in this book

  1. Frontmatter I
  2. PREFACE 1
  3. CONTENTS 8
  4. CHAPTER 1 ELEMENTS OF THE BAND THEORY OF SEMICONDUCTORS
  5. 1.1. The Problem of the Electronic States in Solids 11
  6. 1.2. The Tight-Binding Approximation 12
  7. 1.3. The Nearly Free Electron Approximation 15
  8. 1.4. Effective Mass and-the Density of States 19
  9. 1.5.Impurity Levels. Statistics 23
  10. Chapter 2 BAND STRUCTURE OF GAPLESS SEMICONDUCTORS
  11. 2.1. The Detection of the Gapless State 29
  12. 2.2. Gray Tin 34
  13. 2.3. Mercury Chalcogenides HgTe and HgSe 46
  14. CHAPTER 3 IMPURITIES IN GAPLESS SEMICONDUCTORS
  15. 3.1. The Problem of Residual Electron Concentration 75
  16. 3.2. Impurities and Native Defects in Mercury Chalcogenides 79
  17. 3.3. Energy of Impurity States 81
  18. 3.4. Metal-Insulator Transitions 87
  19. 3.5. Mott Transition in n-Type Crystals 91
  20. 3.6. The Effect of Compensation on the Mott Transition 94
  21. 3.7. An "Anomaly" in the Temperature Dependence of Electron Concentration 99
  22. 3.8. Freeze-Out of Electrons into Acceptors under the Effect of a Magnetic Field and Pressure 102
  23. 3.9. Low-Temperature Peculiarities of Conductivity 107
  24. 3.10. Gapless Semiconductors Containing Magnetic Ions 116
  25. CONCLUSION
  26. Practical Applications of Gapless Semiconductors 124
  27. Some Results and Prospects 127
  28. REFERENCES 131
  29. Backmatter 135
https://doi.org/10.1515/9783112643143-014

Chapters in this book

  1. Frontmatter I
  2. PREFACE 1
  3. CONTENTS 8
  4. CHAPTER 1 ELEMENTS OF THE BAND THEORY OF SEMICONDUCTORS
  5. 1.1. The Problem of the Electronic States in Solids 11
  6. 1.2. The Tight-Binding Approximation 12
  7. 1.3. The Nearly Free Electron Approximation 15
  8. 1.4. Effective Mass and-the Density of States 19
  9. 1.5.Impurity Levels. Statistics 23
  10. Chapter 2 BAND STRUCTURE OF GAPLESS SEMICONDUCTORS
  11. 2.1. The Detection of the Gapless State 29
  12. 2.2. Gray Tin 34
  13. 2.3. Mercury Chalcogenides HgTe and HgSe 46
  14. CHAPTER 3 IMPURITIES IN GAPLESS SEMICONDUCTORS
  15. 3.1. The Problem of Residual Electron Concentration 75
  16. 3.2. Impurities and Native Defects in Mercury Chalcogenides 79
  17. 3.3. Energy of Impurity States 81
  18. 3.4. Metal-Insulator Transitions 87
  19. 3.5. Mott Transition in n-Type Crystals 91
  20. 3.6. The Effect of Compensation on the Mott Transition 94
  21. 3.7. An "Anomaly" in the Temperature Dependence of Electron Concentration 99
  22. 3.8. Freeze-Out of Electrons into Acceptors under the Effect of a Magnetic Field and Pressure 102
  23. 3.9. Low-Temperature Peculiarities of Conductivity 107
  24. 3.10. Gapless Semiconductors Containing Magnetic Ions 116
  25. CONCLUSION
  26. Practical Applications of Gapless Semiconductors 124
  27. Some Results and Prospects 127
  28. REFERENCES 131
  29. Backmatter 135
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