The record-breaking achievement could lead to practical, utility-scale quantum computers that are both smaller and faster.

Using a process known as “magic state distillation” in logical qubits will help make future quantum computers more fault-tolerant.

That’s why the field is racing to develop and implement quantum error-correction (QEC) schemes to alleviate the technology’s inherent unreliability. These approaches involve building ...

Rigetti's Q2 earnings missed expectations, with revenue down 41% year-over-year and ongoing heavy cash burn raising ...

Infleqtion’s $50 million project gives additional momentum to Gov. JB Pritzker’s plan to make Illinois the leading hub for quantum computing.

The year was 2025, and most of our phones still relied on silicon chips, ChatGPT required typing instead of thinking, and ...

The realisation of a large-scale fault tolerant quantum computer is a central goal of quantum information science. While theoretical work has long suggested that this goal is achievable, the ...

Aalto University physicists in Finland have set a new benchmark in quantum computing by achieving a record-breaking millisecond coherence in a transmon qubit — nearly doubling prior limits. This ...

Researchers created an ultra-thin optical array that controls photons like bulky quantum devices, offering a scalable path to room-temperature quantum photonics.

In the race toward practical quantum computers and networks, photons—fundamental particles of light—hold intriguing possibilities as fast carriers of information at room temperature.