手性电子传输中的全调谐法诺共振

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-04-21 DOI:arxiv-2404.13597

Ai-Ying Ye, Zhao Yang Zeng

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引用次数: 0

摘要

法诺共振产生于直接路径和共振路径之间的干扰。关于法诺电导曲线的预测和观测，目前仅在非手性电子传输中有所报道。我们提出了一种电子马赫-泽恩德-法诺干涉仪（textcolor{blue}{MZFI}），它将量子点集成到电子马赫-泽恩德干涉仪中，并研究了这种器件的各种输运谱。该器件中的电子运动是手性的，不存在反向散射，从而使传输、线性电导和差分光谱（如差分电导、差分射电噪声和差分法诺因子）具有完美的范谱，可以通过外部磁通进行完全调谐。对于两臂长度相同的对称干涉仪，即使电流和射噪声也表现出完全可调的共振，并具有法诺共振独有的不同特征。所有传输光谱在一个演化周期中都显示出相同的演化模式，这些模式和轮廓对定义器件的参数变化具有稳健性。

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Fully Tunable Fano Resonances in Chiral Electronic Transport

Fano resonance arises from interference between a direct path and a resonant path. Predictions and observations of Fano profiles of conductance have been reported yet only in nonchiral electron transport. We propose an electronic Mach-Zehnder-Fano interferometer(\textcolor{blue}{MZFI}) that integrates a quantum dot to an electronic Mach-Zehnder interferometer and investigate various transport spectra of this type of device. Electron motion in the device is chiral and backscattering is absent, enabling the transmission, linear conductance and differential spectra such as differential conductance, differential shot noise and differential Fano factor to possess perfect Fano profiles that can be fully tuned by an external magnetic flux. For a symmetric interferometer of(two arms with the same length, even the current and shot noise demonstrate fully tunable resonances and are bestowed different hallmarks unique to Fano resonances. All the transport spectra display the same evolution pattern in an evolution cycle, which along with the profiles are robust against variation of the parameters defining the device.

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arXiv - PHYS - Other Condensed Matter

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