Finite difference time domain simulation of arbitrary shapes quantum dots

被引:4
|
作者
Parto, Elyas [1 ]
Rezaei, Ghasem [1 ]
Eslami, Ahmad Mohammadi [2 ]
Jalali, Tahmineh [2 ]
机构
[1] Univ Yasuj, Dept Phys, Coll Sci, Yasuj 75914353, Iran
[2] Persian Gulf Univ, Phys Dept, Bushehr 7516913817, Iran
来源
EUROPEAN PHYSICAL JOURNAL B | 2019年 / 92卷 / 11期
关键词
Solid State and Materials; NONLINEAR-OPTICAL PROPERTIES; HYDROGENIC IMPURITY; HYDROSTATIC-PRESSURE; SCHRODINGER-EQUATION; DONOR IMPURITY; BINDING-ENERGY; WETTING LAYER; STATES; EIGENFUNCTIONS; TEMPERATURE;
D O I
10.1140/epjb/e2019-100410-9
中图分类号
O469 [凝聚态物理学];
学科分类号
070205 ;
摘要
Utilizing the finite difference time domain (FDTD) method, energy eigenvalues of spherical, cylindrical, pyramidal and cone-like quantum dots are calculated. To do this, by the imaginary time transformation, we transform the schrodinger equation into a diffusion equation. Then, the FDTD algorithm is hired to solve this equation. We calculate four lowest energy eigenvalues of these QDs and then compared the simulation results with analytical ones. Our results clearly show that simulation results are in very good agreement with analytical results. Therefore, we can use the FDTD method to find accurate results for the Schrodinger equation.
引用
收藏
页数:6
相关论文
共 50 条
  • [31] Optical simulation of terahertz antenna using finite difference time domain method
    Zhang, Chao
    Ninkov, Zoran
    Fertig, Greg
    Kremens, Robert
    Sacco, Andrew
    Newman, Daniel
    Fourspring, Kenneth
    Lee, Paul
    Ignjatovic, Zeljko
    Pipher, Judy
    McMurtry, Craig
    Dayalu, Jagannath
    TERAHERTZ PHYSICS, DEVICES, AND SYSTEMS IX: ADVANCED APPLICATIONS IN INDUSTRY AND DEFENSE, 2015, 9483
  • [32] Hybrid parallel finite difference time domain simulation of nanoscale optical phenomena
    Hughes, MC
    Stuchly, MA
    2005 IEEE/ACES INTERNATIONAL CONFERENCE ON WIRELESS COMMUNICATIONS AND APPLIED COMPUTATIONAL ELECTROMAGNETICS, 2005, : 132 - 135
  • [33] Finite-difference time-domain simulation of fusion plasmas at radiofrequency time scales
    Smithe, David N.
    PHYSICS OF PLASMAS, 2007, 14 (05)
  • [34] Higher Order Finite-difference Frequency-domain Analysis of Two-dimensional Photonic Crystals with Arbitrary Shapes
    Chiang, Yen-Chung
    PIERS 2009 BEIJING: PROGESS IN ELECTROMAGNETICS RESEARCH SYMPOSIUM, PROCEEDINGS I AND II, 2009, : 197 - 200
  • [35] Quantum finite difference solvers for physics simulation
    Chagneau, Anthony
    Nathoo, Laeticia
    Alloul, Jeremy
    Gabriel, Bertrand
    IET QUANTUM COMMUNICATION, 2023, 4 (02): : 70 - 83
  • [36] Space-domain finite-difference and time-domain moment method for electromagnetic simulation
    Shao, W
    Wang, BZ
    Yu, ZJ
    IEEE TRANSACTIONS ON ELECTROMAGNETIC COMPATIBILITY, 2006, 48 (01) : 10 - 18
  • [37] Newmark algorithm in the finite-difference time-domain analysis of ferrite magnetized in an arbitrary direction
    Wang Fei
    Wei Bing
    Yang Qian
    Li Lin-Qian
    ACTA PHYSICA SINICA, 2014, 63 (16)
  • [38] Analysis of the finite difference time domain technique to solve the Schrodinger equation for quantum devices
    Soriano, A
    Navarro, EA
    Portí, JA
    Such, V
    JOURNAL OF APPLIED PHYSICS, 2004, 95 (12) : 8011 - 8018
  • [39] Finite-difference time-domain simulation of ultrashort pulse propagation incorporating quantum-mechanical response functions
    Gruetzmacher, JA
    Scherer, NF
    OPTICS LETTERS, 2003, 28 (07) : 573 - 575
  • [40] The symplectic finite difference time domain method
    Saitoh, I
    Suzuki, Y
    Takahashi, N
    IEEE TRANSACTIONS ON MAGNETICS, 2001, 37 (05) : 3251 - 3254
12345