三隧

三隧三隧
  1. 单电子三势垒隧穿结I-V特性研究

    The study of I-V characteristics of single-electron triple - barrier tunnel - junction

  2. 三势垒隧穿结构中由外加垂直磁场引入的高子带非热占据

    Magnetic-field-induced Nonthermal Occupation of Higher Subbands in a Three-barrier Tunneling Structure

  3. 在正统理论的基础上,提出了单电子三势垒隧穿结模型的主方程,并用线性方程组解法求出了其稳态解。

    The master equation of the single electron triple barrier tunnel junction ( TBTJ ) model is developed based on the orthodox theory .

  4. 相比之下,制冷率和相对制冷系数主要受势阱宽度变化的影响。最后,在第4章中研究了三势垒共振隧穿异质结电子制冷机的性能。

    The cooling rate and the relative coefficient of performance are mainly affected by the change of the width of the potential well . Lastly , the performance of the electron refrigerator with a multi-barrier nanowire heterostructure is studied in Chapter 4 .

  5. 推导出六方晶系光子晶格中非线性三能级的Landau-Zener隧穿模型,在特殊初值条件下将其转化为非线性二能级模型。

    We first derive the Nonlinear three-level Landau-Zener model in photonic lattices for the case of hexagonal symmetry , and then simplify this model to a nonlinear two-level Landau-Zener model under certain initial conditions .