Award Data

ABSTRACT: During this work Tech-X Corporation in partnership with George Washington University will develop a tool (Nautilus) for modeling weakly ionized plasmas. Specific tasks of this project include development of a reacting multi-fluid electrostatic code to complement the electromagnetic two-fluid model already in Nautilus. In addition we will be adding a reacting multi-fluid magneto-gasdyn ...

ABSTRACT: Chiaro Technologies and the University of Colorado will prove the feasibility and investigate the capabilites, limitations, and extensions of the HOlographic Range-doppler processor for Ubiquitous radar Systems (HORUS) in this Phase II STTR. HORUS encodes the signals from a 1-dimensional RF antenna array onto the broad optical bandwidth of a femtosecond comb laser as pulse compre ...

ABSTRACT: This research focuses on the development of a system for producing and imaging ultracold atoms in optical lattice potentials. Utilizing hybrid magnetic and optical atom chip technology, the system will provide a simple and robust means to perform experiments with optical lattice potentials. This hybrid atom chip approach will also provide high numerical aperture access to the atomic sa ...

ABSTRACT: We will design, fabricate and test a quantum processing unit (QPU) based on a symmetric ion trap chip. The trap will provide trapping depth similar to that obtain with macrosize Paul traps. In addition to the ion trap, this chip will incorporate integrated optical systems which will deliver the light fields required by the elementary quantum processing unit (or quantum sensing unit). ...

ABSTRACT: Energy harvesting has emerged as a critical need for many current and future Air Force missions to enable their long endurance requirements. Traditional approaches have focused on harvesting solar and vibration (i.e., via the use of piezoelectric materials) energy. More recently, substantial interest has developed in harvesting energy derived from thermal gradients (e.g., due to solar r ...

ABSTRACT: This proposal is focused on concept formulation, design, and development of an innovative end-to-end atmospheric sensing system specifically addressing the deep turbulence challenges that encompass multi-mission and multi-platform utilization of Air Force sensing, surveillance, and weapon systems. This Extended-Range Atmospheric Sensing Suite (ERASS) will include a set of sensors at th ...

ABSTRACT: The proposal offers advanced research in the HEL fiber-array technology area focused on the development and demonstration of a coherent beam combining (phase locking) onto realistic (speckle) moving targets in deep turbulence conditions. It also includes analysis and development of techniques for HEL beam aimpoint selection and stabilization in highly anisoplanatic conditions, proof-of- ...

ABSTRACT: The rapid continued development of unmanned air systems (UAS) is enabling new mission types, in-creased mission effects, and increased airman safety. However, these advances also present numerous challenges to airman-machine interaction, tactics development, and defense. The rapid development pace has produced a situation where new technologies are outpacing the knowledge of how best to ...

ABSTRACT: To complement capabilities of future autonomous systems, the Air Force requires interoperable tools & methodologies to design, verify, validate, assess & operate human-machine system interactions associated with autonomous and manned systems integration. Often the human performance measures and status of each simulation is reported independently making it challenging to analyze the data. ...

ABSTRACT: Scramjet engines are expected to operate across wide Mach number ranges and typically incorporate isolators to provide sufficient back-pressure margin and prevent unstart. Unfortunately, isolators introduce additional weight and drag, and form multiple shockwave/boundary layer interactions, which degrade the incoming flow. As military requirements become increasingly demanding, an active ...