Award Data

A growing number of electronic applications within the Air Force, such as devices for power conditioning and distribution, RF power amplification, and high power lasers have been identified for increased heat transfer requirements to maintain operational temperatures at acceptable levels while increasing the performance through higher power. However, this same target research that requires increas ...

Small Satellites are a rapidly growing technology and of great interest to both commercial and DOD customers. With the increased access to space and the maturation of small satellites, the mission capabilities have expanded significantly. Along with these expanded capabilities are a need for new approaches to satellite communications with increased capabilities. Blue Cubed is working on developing ...

Quantum computer technology is so critical and strategic that the Air Force Research Laboratory is itself working on a quantum bit focused on the trapped ytterbium (Yb+) ion. The current technology based on entangling electrons, photons, or ions are challenging to put together in multiple qubits. To make a qubit stable, it is essential to protect it from outside interferences that can disrupt the ...

In the wake of ransomware reaching epidemic proportions and the current anti-ransomware products’ inability to stop its march, there is a great deal of urgency in creating effective countermeasures. Our proposal is to design and subsequently develop a technology called Program Access Control (PAC), that can positively protect data on both consumer and enterprise systems. If successfully dep ...

Sensors based on chip-scale atomic devices (CSADs) offer portability, manufacturability, and high performance for precision navigation and timing (PNT) missions. Key systems for PNT including atom interferometric gyroscopes (AIG) and atomic clocks. Ongoing advances and innovations in photonic integrated circuits (PICs) are directly relevant to CSADs. Different material bases have been used in PICs ...

Exosonic is developing a quiet Mach 1.8, 4500 nmi range supersonic civil aircraft that uses aerodynamic shaping techniques to mute its sonic boom. Exosonic is teamed up with Stanford University Prof. Juan Alonso's Aerospace Design Lab to apply the lab's low boom shape optimization tools to design this aircraft to meet future low-boom regulatory standards. The aircraft's primary customers are comme ...

This proposed Phase I STTR effort will be a collaboration between OmniScience LLC and the University of Colorado Colorado Springs (UCCS) Vision and Security Technology (VAST) Lab. The primary objective of this Phase I effort is to demonstrate feasibility of a brain computer interface (BCI) controller for augmented/virtual reality (AR/VR) and conventional screen displays, referred to herein as an A ...

The PI has worked on a design concept for a wind turbine blade with adaptive twist transformation. The design improves wind capture and reduces loading on the system drivetrain turbine by adapting the twist distribution in relation to wind speed. Structural adaptability is enabled by actuating a series of compliant segments that are mounted on a relatively rigid spar. The segments are assumed to h ...

The Phase II effort will be to clearly demonstrate the feasibility and build a prototype of a noncontact, high-quality holographic polarimetry system with pixel level depth and Mueller matrix information with a user-friendly interface to image and display this data. The measurements of each data product will be validated with trusted truth samples. The system will be reproducible and will have a d ...

There is a DoD need for the development of robust sensors to obtain temporally and spatially resolved surface temperature and heat flux measurements on test articles in blowdown and continuous hypersonic wind tunnels. These micro-heat flux sensors are required in order to better understand the state of the boundary layer of a hypersonic vehicle; to better understand boundary layer instabilities; a ...