## Isotope Low-Dimensional Structures: Elementary Excitations and ApplicationsThis Briefs volume describes the properties and structure of elementary excitations in isotope low-dimensional structures. Without assuming prior knowledge of quantum physics, the present book provides the basic knowledge needed to understand the recent developments in the sub-disciplines of nanoscience isotopetronics, novel device concepts and materials for nanotechnology. It is the first and comprehensive interdisciplinary account of the newly developed scientific discipline isotopetronics. |

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### Contents

1 | |

2 Methods of the Preparation of LowDimensional Structures | 15 |

3 Electron Excitations in LowDimensional Structures | 30 |

4 Applications of LowDimensional Structures | 71 |

References | 85 |

### Other editions - View all

Isotope Low-Dimensional Structures: Elementary Excitations and Applications Vladimir G. Plekhanov No preview available - 2012 |

Isotope Low-Dimensional Structures: Elementary Excitations and Applications Vladimir G. Plekhanov No preview available - 2012 |

### Common terms and phrases

acoustic phonons approximation atomic band structure bandgap barrier beam behavior biexciton binding energy bulk components confinement corresponding coupling density devices doping electric field electron–hole electron–phonon electrons and holes elementary excitations emission energy levels epitaxial etching exciton exciton binding energy frequency GaAs growth Hamiltonian heterostructures II–VI III–V increases interaction ions isotope effect isotope superlattices lasers lasing threshold lattice layers light hole light-emitting diodes Low-Dimensional Structures luminescence mass material matrix method mixed crystals MOCVD modes motion nanometer nanostructures nanowire nuclear spin observed optical phonons particle peak Phys physics PL spectra potential properties quantization quantum computer quantum dots quantum mechanics quantum wire qubits Raman scattering Raman scattering spectra relaxation resonant Schrödinger equation semiconductor shown silicon solid spectrum Springer substrate superlattice symmetry techniques thickness transition tunnel V.G. Plekhanov values vibrations voltage wave functions wavefunction wavelength