![]() ![]() Georgia Institute of Technology - Atlanta, Georgia. Egon Cholakian Aaron Kofford Jeff Rogers Lael Rudd Michael "Orbit" Nayak, CFII, PhD Robert Saperstein Wes Uy Sumit De Ben Osei Ryan Flanagan Robert McGwier Joshua Parsons Stephen Griggs Ryann Glaccum Tabatha Tomes Thompson James Paul Marlowe, SFPC, SAPPC, SPSC, PSC Sha-Chelle Devlin Manning Rob McHenry Dev Palmer Tammy Salek, PMP J.F. DARPA has announced its selection of eight industry and university research teams to support the Science of Atomic Vapors for New Technologies (SAVaNT) program that kicked off this week: ColdQuanta, Inc. Jessica Ingram Helen Queen Sulzer Defense Advanced Research Projects Agency (DARPA) Benjamin Griffin Paul Sheehan Steven A. Phase zero of the new program will last for six months to cover an engineering study, architecture design, and an industry-government collaboration aimed at determining an initial sensor data pricing model. This project aims to take photonic integrated circuit and MEMS technologies to develop chip-scale atomic clocks, quantum rotation sensors / gyroscopes and. The second area focuses on building a larger, but still transportable, optical clock with unprecedented holdover performance.DARPA program aims to incentivize data collection from commercial LEO satellite sensors. “If we’re successful, these optical clocks would provide a 100x increase in precision, or decrease in timing error, over existing microwave atomic clocks.”Īccording to darpa.mil, the program is divided into two technical areas: The first focuses on developing a robust, high-precision small portable optical clock. “The goal is to transition optical atomic clocks from elaborate laboratory configurations to small and robust versions that can operate outside the lab,” said Tatjana Curcic, program manager in DARPA’s Defense Sciences Office. ![]() The program is expected to leverage DARPA-funded research over the past couple of decades that has led to lab demonstration of the world’s most precise optical atomic clocks. The US Department of Defense is interested in the development of laser-based clocks that will be 100 times more accurate than today’s most precise models, while also small and rugged enough to be carried on Army vehicles and fighter jets.ĭARPA’s Robust Optical Clock Network (ROCkN) program aims to create optical atomic clocks with low size, weight, and power (SWaP) that yield timing accuracy and holdover better than GPS atomic clocks and can be used outside a laboratory. Its purpose is to describe, in broad terms, DARPAs current top-level strategy to Congress, other elements in the Department of Defense (DoD), the research. ![]() Today’s communications, navigation, financial transaction, distributed cloud, and defense applications rely on the precision timing of atomic clocks or clocks. If GPS were jammed by an adversary, time synchronization would rapidly deteriorate and threaten military operations. DARPA’s Atomic Clock with Enhanced Stability (ACES) program aims to build the next-generation atomic clock owing to the limitations of the now commercially available CSACs. A timing error of just a few billionths of a second can translate to positioning being off by a meter or more. High-tech missiles, sensors, aircraft, ships, and artillery all rely on atomic clocks on GPS satellites for nanosecond timing accuracy. Synchronizing time in modern warfare – down to billionths and trillionths of a second – is critical for mission success. ![]()
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