Noise and mixing properties of high-Tc Josephson junctions at W-band frequencies

O. Harnack , M. Darula , H. Andoh , S. Beuven , H. Kohlstedt
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引用次数: 2

Abstract

We report on the noise and Josephson mixing properties of high-Tc superconductor (HTS) Josephson junctions. Direct radiation measurements and heterodyne mixing experiments in the frequency range 45–141 GHz have been performed by using YBa2Cu3O7−x (YBCO) step-edge junctions (SEJ) on LaAlO3 and MgO and bicrystal junctions (BCJ) on MgO substrates. Junctions with current voltage characteristics (CVC) close to predictions of the resistivity shunted junction (RSJ) model were mounted into a high sensitive radiometer system. From linewidth measurements we calculated an effective noise temperature of our junctions. In heterodyne mixing experiments we obtained conversion efficiencies around −14 dB in the 11 GHz intermediate frequency (IF) band under the radiation of two monochromatic signals. In the fundamental mixing regime we observed response at IF at working temperatures up to 72 K. The measured receiver and mixer noise temperature of the Josephson mixer at 94 GHz local oscillator (LO) frequency, an IF of 1.4 GHz and at a working temperature of 10 K was 4700 and 3400 K, respectively.

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w波段高tc约瑟夫森结的噪声和混频特性
本文报道了高温超导体Josephson结的噪声和Josephson混合特性。在LaAlO3和MgO衬底上使用YBa2Cu3O7−x (YBCO)阶梯边结(SEJ)和MgO衬底上使用双晶结(BCJ)进行了45-141 GHz频率范围内的直接辐射测量和外差混合实验。将电流电压特性(CVC)接近电阻率分流结(RSJ)模型预测值的结安装到高灵敏度辐射计系统中。通过线宽测量,我们计算出了结的有效噪声温度。在外差混频实验中,在两个单色信号的辐射下,我们在11 GHz中频(IF)波段获得了约- 14 dB的转换效率。在基本混合状态下,我们观察到在工作温度高达72k的中频下的响应。在本振(LO)频率为94 GHz、中频为1.4 GHz和工作温度为10 K时,测量到的约瑟夫森混频器的接收机和混频器噪声温度分别为4700 K和3400 K。
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