Spotlight: Using PEACOCS to Link Atomic Time Signals Across Longer Distances | NIST
NIST has developed a new system called PEACOCS that could revolutionize the way atomic clocks on Earth and satellites communicate. PEACOCS…
A Fast and Sensitive Nanophotonic Motion Sensor Developed for Silicon Microdevices | NIST
Researchers at NIST have developed a highly sensitive nanophotonic motion sensor that can be batch-fabricated on a silicon chip at low cost.…
New Colors: JILA Scientists Confirm First ‘Frequency Comb’ to Probe Ultraviolet Wavelengths | NIST
Scientists at JILA, a joint venture of NIST and the University of Colorado Boulder, have created the first “frequency comb” in the…
Quantum Computer Components ‘Coalesce’ to ‘Converse’ | NIST
Researchers at NIST have demonstrated a breakthrough in quantum communication by making photons from two different quantum sources…
Quantum Computers Will Require Complex Software to Manage Errors | NIST
Quantum computers, which use quantum bits (qubits) that can exist in multiple states simultaneously, face significant challenges in error…
Department of Commerce Establishes Industrial Advisory Committee for Microelectronics | NIST
The U.S. Department of Commerce has established an Industrial Advisory Committee (IAC) to advise on microelectronics research, development,…
Unveiling the Universe: In 4 New Studies, NIST Explores Novel Ways to Hunt Dark Matter | NIST
NIST researchers are exploring novel approaches to detect dark matter, a mysterious substance believed to make up 85% of the universe’s…
PQC Standardization Process: Second Round Candidate Announcement | NIST
NIST has announced the second round candidates for its post-quantum cryptography (PQC) standardization process. The 17 selected public-key…
NIST Demonstrates Transfer of Ultraprecise Time Signals over a Wireless Optical Channel | NIST
NIST researchers have successfully transferred ultraprecise time signals over a wireless optical channel between two locations approximately…