在半导体器件中,声子效应所起的关键作用是众所周知的。在电子器件向单原子和单分子器件发展的时代,人们更是迫切需要了解纳米体系中的声子特性。本书是论述纳米结构中的声子相互作用理论的一本好书。书中采用光学声子的介电连续模型和声学声子的弹性连续模型,讨论了在量子阱、量子线和量子点中的声子和声子的相互作用,电子和声子的相互作用,并用转移矩阵方法讨论了多层界面中的声子的输运特性。
本书适用于物理学、微电子学等专业的研究生和科研人员。
Preface
Chapter 1 Phonons in nanostructures
1.1 Phonon effcts:fundamental limits on carrier mobilties and dynamical
1.2 Tailoring phonon interactions in devices with nanostructure componets
Chpater 2 Phnons in bulk cubic crystals
2.1 Cubic structure
2.2 Ionic bonding-polar semiconductors
2.3 Linear-chain model and macroscopic models
Chapter 3 Phonons in bulk wirtite crystals
3.1 Basic properties of hphonos in wurtzite structure
3.2 Loudon model of uniaxial crystals
3.3 Application of London moedel to Ⅲ-V nitrides
Chapter 4 Raman Properties of bulk Phonons
4.1 Measuremnt of dispersion relations for bulk samples
4.2 Raman scttering for fulk zincblende and wurtzite strectures
4.3 Lifetimes in zincblende and wurtzite crystals
4.4 Ternary alloys
4.5 Coupled plasmon-phonon modes
Chpater 5 Occpqion nunber representaion
5.1 Phonon mode amplitueds and occupation numbers
5.2 Polar-optical phonons:Frohlich interacion
5.3 Acousic Phonons and deformation-potential interaction
5.4 Piezoelectric interaction
Chapter 6 Anharmonic coupling of phonons
Chapter 7 Contiuum models for phonons
Chapter 9 Carrier-LO-phonon scattering
Chapter 10 Recent developments
Chapter 11 Concluding considerations
Appendices
References
Index