Electrical spectroscopy of a heteroatomic molecule-like shallow-donor pair in silicon can switch the molecule between two ionic states of opposite polarities. We study this charge reorganization theoretically by solving the time-dependent Schroedinger equation on a grid using an effective mass model. The ability to control the charge reorganization by applying external electrical fields is then used to design a cyclable full-adder that operates as a nonlinear finite state machine. The logic operations, equivalent to 32 switches, are implemented by realistic pulse voltages that induce diabatic and adiabatic charge transfer between the wells of the two donors. A RF-SET is used for the read out by charge detection.
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机译:转换术语± Sup> [n i Sub>] f(+/-) min sup>的条件最小化结构的逻辑动态过程的方法Sub> AND ± Sup> [m i Sub>] f(+/-) min Sub>在功能添加结构中± Sup> f < Sub> 1 Sub>(Σ RU Sub>) min Sub>,不带纹波f 1 Sub>(± Sup>←←)和循环ΔtΣ Sub>→5∙f(&)-和5个条件逻辑函数f(&)-,并通过三元数系统的算术公理同时转换术语参数的过程f RU Sub>(+ 1,0,-1)及其实现其的功能结构(俄罗斯逻辑版本)