Breakthrough in single-photon integration holds promise for quantum computing, cryptography
Breakthrough in single-photon integration holds promise for quan
Arecent study has unveiled a significant advancement toward the on-chip integration of single-photon sources at room temperature. This achievement represents a significant step forward in the field of quantum photonics and holds promise for various applications, including quantum computing, cryptography, and sensing.
The key innovation lies in implementing a hybrid metal–dielectric bullseye antenna, which delivers exceptional photon directionality. This novel antenna design allows for the efficient back-excitation of photons by placing the emitter within a subwavelength hole positioned at the center of the antenna. This configuration enables both direct back-excitation and highly efficient front coupling of emission to low numerical aperture optics or optical fibers.