Waveguide integrated superconducting single-photon detectors implemented as near-perfect absorbers of coherent radiation

摘要

At the core of an ideal single-photon detector is an active material that absorbs and converts every incident photon to a discriminable signal. A large active material favours efficient absorption, but often at the expense of conversion efficiency, noise, speed and timing accuracy. In this work, short (8.5?μm long) and narrow (8 × 35?nm2) U-shaped NbTiN nanowires atop silicon-on-insulator waveguides are embedded in asymmetric nanobeam cavities that render them as near-perfect absorbers despite their small volume. At 2.05?K, when biased at 0.9 of the critical current, the resulting superconducting single-photon detectors achieve a near-unity on-chip quantum efficiency for ～1,545?nm photons, an intrinsic dark count rate <0.1?Hz, a reset time of ～7?ns, and a timing jitter of ～55?ps full-width at half-maximum. Such ultracompact, high-performance detectors are essential for progress in integrated quantum optics.