Gasparinetti Simone, Pechal Marek, Besse Jean-Claude, Mondal Mintu, Eichler Christopher, Wallraff Andreas
Department of Physics, ETH Zurich, CH-8093 Zurich, Switzerland.
Phys Rev Lett. 2017 Oct 6;119(14):140504. doi: 10.1103/PhysRevLett.119.140504. Epub 2017 Oct 4.
We use a three-level artificial atom in the ladder configuration as a source of correlated, single microwave photons of different frequency. The artificial atom, a transmon-type superconducting circuit, is driven at the two-photon transition between ground and second-excited state, and embedded into an on-chip switch that selectively routes different-frequency photons into different spatial modes. Under continuous driving, we measure power cross-correlations between the two modes and observe a crossover between strong antibunching and superbunching, typical of cascade decay, and an oscillatory pattern as the drive strength becomes comparable to the radiative decay rate. By preparing the source in a superposition state using an excitation pulse, we achieve deterministic generation of entangled photon pairs, as demonstrated by nonvanishing phase correlations and more generally by joint quantum state tomography of the two itinerant photonic modes.
我们使用处于阶梯构型的三能级人工原子作为不同频率的关联单微波光子源。该人工原子是一种跨导型超导电路,在基态与第二激发态之间的双光子跃迁上受到驱动,并嵌入到一个片上开关中,该开关可选择性地将不同频率的光子路由到不同的空间模式。在持续驱动下,我们测量了两种模式之间的功率互相关,并观察到强反聚束和超聚束之间的转变,这是级联衰变的典型特征,以及当驱动强度与辐射衰变率相当时的振荡模式。通过使用激发脉冲将源制备在叠加态,我们实现了纠缠光子对的确定性产生,这通过非零的相位相关性以及更一般地通过两个传播光子模式的联合量子态层析成像得到了证明。
