Photons, the tiniest packets of electromagnetic energy, can carry information across quantum networks. Each photon has various properties, like path, polarization, and frequency, which can hold ...

Researchers have discovered that superconducting nanowire photon detectors (SNSPDs), originally designed for detecting photons, can also accurately detect high-energy protons. This unexpected finding ...

Wave's groundbreaking quantum annealing to IBM's superconducting qubits, discover how these revolutionary technologies are already solving real-world problems.

Photon detection is essential for applications in quantum computing, telecommunications, and optical sensing, but fractal ...

From high-speed communication to quantum computing and sensing, the detection, transmission, and manipulation of light ...

Researchers develop a fabrication technique to overcome design and performance challenges for scalable single-photon ...

In the vast emptiness of space, Voyager 1 has been faithfully whispering its secrets back to Earth since 1977. But in a little over two decades, its nuclear-powered heart is expected to go dark. What ...

The photon detection technique has several applications. Fractal superconducting nanowire single-photon detectors (SNSPDs) ...

The international KM3NeT collaboration, with the participation of the University of Granada, publishes the detection of a ...

Scientists have demonstrated a major leap in quantum networking by transmitting entangled quantum signals with 100% uptime ...

Scientists have just detected a neutrino that is thirty times more energetic than any previously detected anywhere in the world. This exceptional discovery opens up new perspectives for understanding ...

But superposition is only part of what makes qubits powerful. They also rely on entanglement, a phenomenon Albert Einstein ...