Electronic States in Semiconductor Quantum Dot with Fluctuating Interfaces
スポンサーリンク
概要
- 論文の詳細を見る
Effects of interface fluctuations on the electronic states in semiconductor quantum dots are analyzed on the basis of numerical solutions for ground state wave functions andenergy eigenvalues. It is shown that the effective volume of confinement becomes smaller than the real volume of quantum dots due to fluctuation. This effect comes from thefact that the wave functions with larger characteristic wavelength are not able to deform themselves following the fluctuation of interfaces exactly.
- Faculty of Engineering, Okayama Universityの論文
- 1994-11-30
Faculty of Engineering, Okayama University | 論文
- Numerical Simulation of Acoustic Waves in a Two-Dimensional Phononic Crystal: Negative Refraction
- Information Transfer and Entanglement Creation by Spin Chains: Effects of Noise and Asymmetry
- Vibrational Properties of Si Crystal with Vacancy : A Tight-Binding Study
- Stochastic-Dierence-Equation Method for Long Time-scaleMolecular Dynamics Simulations
- Melting of Spherical Yukawa Clusters Analyzed by Monte CarloSimulation