The Quantum Communication Fieldlab Rotterdam (QCFR) was launched today at RDM Next in Rotterdam. The Fieldlab marks a transition from earlier pilots to the next phase of quantum-secure communication: ...

The development of quantum networks is paramount towards practical and secure communications. Quantum digital signatures (QDS) offer an information-theoretically secure solution for ensuring data ...

Quantum digital signatures (QDS) harness the principles of quantum mechanics to guarantee authenticity, integrity and non-repudiation of messages with information-theoretic security. By encoding ...

In the race to secure digital infrastructure against the looming threat of quantum computing, space has emerged as an indispensable theater. Satellites, once primarily vehicles for reconnaissance and ...

Quantum networks, systems consisting of connected quantum computers, quantum sensors or other quantum devices, hold the potential of enabling faster and safer communications. The establishment of ...

As the demand for more secure data transmission increases, conventional communication technologies are facing limitations imposed by classical physics, and are therefore approaching their limits in ...

WISeKey and SEALSQ congratulate the White House, policymakers, researchers, and industry leaders advancing this critical initiative and reaffirm their commitment to helping build a secure, trusted, ...

SEALSQ Corp (NASDAQ: LAES), a leader in post-quantum semiconductors, cybersecurity and digital identity technologies, today announced significant progress in the development of the Quantum Spatial ...