Award Data

TLC has developed an innovative multi-component radiation hard InP HEMT based chip approach that will provide monolithic digital,millimter-wave and photnic functions for airborne, spaceborne and other military systems. During phase I we demonstrated lattice engineering, epi growth, design and device fabriction capabilities that resulted in high performance electronic and photonic devices using I ...

Department of Defense (DOD) interset in developing laser weaponary in the 1960's. Solid-State lasers have been a canidate technology from the earliest time, but for various reasons, this technology has not been developed to a point where they are scalable to high average power lasers. The development of diode laser pump arrays has improved efficiency, but at a considerable increase in systems cost ...

Yardney Technical Products, Inc. (Yardney) proposes a program to develop and test a high-performance, prismatic Lithium-ion battery, and demonstrate the manufacturing capability and reliability of the system for use in government, military and commercial satellite applications. This program will continue from the success of the Phase I program in developing suitable battery monitoring and control ...

InP-based devices have applications encompassing the entire communication technology including wireless and fiber-optic telecommunications. It is especially suitable for very high frequency (up to 200GHz) operation. Therefore they are increasingly a critical component in all military missions. Their manufacturing costs are high in large part due the high cost of InP substrates, and their much smal ...

Practical use of a RFC for solar powered winged aircraft and lighter-than-air craft has been limited due to weight constraints and the paucity of test data from and practical experience with closed loop RFC hardware. The lightweight cells and endplates developed in Phase I of this program will be applied to the practical implementation of a closed-loop regenerative fuel cell. This RFC will build ...

Magneto-Thermal MRAM uses both heat and magnetic field (current)to overcome thermal instabilities of very small memory cells. Self-generated heat in the cell raises the temperature of magnetic material in the cell above the exchange ordering temperature of the magnetic material (either ferromagnetic or anti-ferromagnetic). Magneto-Thermal MRAM is compatible with advances in photolithography down t ...