Kambs Benjamin, Kettler Jan, Bock Matthias, Becker Jonas Nils, Arend Carsten, Lenhard Andreas, Portalupi Simone Luca, Jetter Michael, Michler Peter, Becher Christoph
Opt Express. 2016 Sep 19;24(19):22250-60. doi: 10.1364/OE.24.022250.
We present experimental results on quantum frequency down-conversion of indistinguishable single photons emitted by an InAs/GaAs quantum dot at 904 nm to the telecom C-band at 1557 nm. Hong-Ou-Mandel (HOM) interference measurements are shown prior to and after the down-conversion step. We perform Monte-Carlo simulations of the HOM experiments taking into account the time delays of the different interferometers used and the signal-to-background ratio and further estimate the impact of spectral diffusion on the degree of indistinguishability. By that we conclude that the down-conversion step does not introduce any loss of HOM interference visibility. A noise-free conversion-process along with a high conversion-efficiency (> 30 %) emphasize that our scheme is a promising candidate for an efficient source of indistinguishable single photons at telecom wavelengths.
我们展示了关于将由InAs/GaAs量子点在904纳米处发射的不可区分单光子进行量子频率下转换至1557纳米的电信C波段的实验结果。在频率下转换步骤之前和之后展示了Hong-Ou-Mandel(HOM)干涉测量结果。我们进行了HOM实验的蒙特卡罗模拟,考虑了所使用的不同干涉仪的时间延迟以及信号与背景的比率,并进一步估计了光谱扩散对不可区分程度的影响。由此我们得出结论,频率下转换步骤不会导致HOM干涉可见度的任何损失。无噪声的转换过程以及高转换效率(>30%)表明我们的方案是电信波长下不可区分单光子高效源的一个有前景的候选方案。