基于量子点的参量放大器。
Parametric Amplifiers Based on Quantum Dots.
作者信息
Cochrane Laurence, Lundberg Theodor, Ibberson David J, Ibberson Lisa A, Hutin Louis, Bertrand Benoit, Stelmashenko Nadia, Robinson Jason W A, Vinet Maud, Seshia Ashwin A, Gonzalez-Zalba M Fernando
机构信息
Nanoscience Centre, Department of Engineering, University of Cambridge, Cambridge CB3 0FF, United Kingdom.
Quantum Motion Technologies, Windsor House, Cornwall Road, Harrogate HG1 2PW, United Kingdom.
出版信息
Phys Rev Lett. 2022 May 13;128(19):197701. doi: 10.1103/PhysRevLett.128.197701.
Josephson parametric amplifiers (JPAs) approaching quantum-limited noise performance have been instrumental in enabling high fidelity readout of superconducting qubits and, recently, semiconductor quantum dots (QDs). We propose that the quantum capacitance arising in electronic two-level systems (the dual of Josephson inductance) can provide an alternative dissipationless nonlinear element for parametric amplification. We experimentally demonstrate phase-sensitive parametric amplification using a QD-reservoir electron transition in a CMOS nanowire split-gate transistor embedded in a 1.8 GHz superconducting lumped-element microwave cavity, achieving parametric gains of -3 to +3 dB, limited by Sisyphus dissipation. Using a semiclassical model, we find an optimized design within current technological capabilities could achieve gains and bandwidths comparable to JPAs, while providing complementary specifications with respect to integration in semiconductor platforms or operation at higher magnetic fields.
接近量子极限噪声性能的约瑟夫森参量放大器(JPA)对于实现超导量子比特以及最近的半导体量子点(QD)的高保真读出起到了重要作用。我们提出,电子双能级系统中产生的量子电容(约瑟夫森电感的对偶)可以为参量放大提供一种替代的无耗散非线性元件。我们通过实验证明了在嵌入1.8GHz超导集总元件微波腔的CMOS纳米线分裂栅晶体管中,利用量子点-库电子跃迁实现了相敏参量放大,获得了-3至+3dB的参量增益,受西西弗斯耗散限制。使用半经典模型,我们发现,在当前技术能力范围内的优化设计可以实现与JPA相当的增益和带宽,同时在半导体平台集成或更高磁场下运行方面提供互补的规格。
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