Researchers combined the photon dot emitter with a circular Bragg resonator ... combined together to create a more powerful ...

Controlled generation of single-photon emitters in silicon (red ... photonic structures for enhanced light-matter interaction, and active feedback control.

Quantum light sources are fickle ... and virtually no blinking. Second, single photon emitters have traditionally operated at extremely low cryogenic temperatures. In fact, they typically require ...

If someone measures the property of one entangled photon, the other instantly reflects ... to precisely control the properties of the light emitted by the quantum dot. By fine-tuning these ...

Many next-generation quantum devices rely on single-photon emitters based on optically active defects in solids, known as color centers. Understanding their properties is fundamental to developing ...

A single photon emitter emits light as single particles or photons distinct from classical light sources that emit multiple photons of light at a time. Such sources of single photons are critical for ...

they exhibited a phenomenon known as "photon avalanching," in which a small increase in laser power results in a giant, disproportionate increase in the light emitted by the nanoparticles.

Terahertz (THz) waves are located between microwaves and infrared light in the electromagnetic spectrum. They can pass through many materials without causing damage, making them useful for security ...