Award Data

In this SBIR solicitation, critical technology is sought that will enable construction of accelerator systems that are operable from moving military platforms or that will significantly reduce the overall footprint of currently available technology. Alameda Applied Sciences Corporation (AASC) offers to develop one key enabling technology of a Laser Wakefield Accelerator (LWFA), that holds promise ...

The ability to collect data for conventional munitions in conditions of increasing acceleration and duration for hard target penetration is needed. Survivability and functionality of an electronic data recorder exposed to these acceleration levels (up 120,000 g) and shock loads is necessary as a result of higher velocity weapons and the use of precursor shape charge warheads to soften the target ...

While current Software and Systems Engineering (SSE) methodologies provide a viable means for technically trained professionals to address HSI concerns throughout the system lifecycle, they tend to be inadequate for non-technical users. To overcome this limitation, the proposed effort is concerned with developing and integrating a set of HSI templates with an existing SSE tool and thereby refining ...

The problems addressed by this proposal are related to the need for fast running models (FRMs) that predict damage imparted to structural components composed of UHPC materials, particularly slabs, by munitions related to their penetration and detonation. These FRMs are also to provide the resulting residual capacity of the component and account for the effects of multiple strikes. The FRMs need ...

The Inverse Free Electron Laser (IFEL) is a leading contender to demonstrate high gradient, high repetition rate laser acceleration for the next generation of small footprint, high energy (>200 MeV) accelerators for military applications. In the IFEL energy is transferred from a high power laser to an electron beam as they co-propagate through a magnetic undulator. The rapid development of laser t ...

With the current state of world events, the threat of explosives used against high-value targets is more pronounced than ever before. As a result, simulation of blast events and their effects on structures has become an increasingly vital capability. Current blast simulations on Central Processing Units (CPU) resources require a significant amount of computational time, limiting their overall valu ...

Electronic equipment, especially communication equipment, is extremely vulnerable to various forms of electromagnetic radiation whether natural or man-made due to minimal shielding and high sensitivity to radio waves. An ideal transient hardening device would limit the harmful energy as it enters the circuitry by minimizing the over-voltage. It would have to respond very fast and be able to handl ...

Alameda Applied Sciences Corporation (AASC) proposes to develop an all-solid-state, compact, portable, multi-gigawatt poer modulator for electron and ion beam diodes, high power microwave and x-ray sources. This modulator is based on Inductive Energy Store (IES) using an array of Diamond Opening Switches for power compression. Because power amplification using IES requires a much smaller volume ...

Alameda Applied Sciences Corporation (AASC) proposes to develop a new type of interferometer that is compact and portable and can be used to make in-situ measurements of gases and plasmas. This interferometer uses polarization maintaining optical fibers and diode lasers to duplicate the capabilities of existing Mach-Zender interferometers that use dicrete optical elements such as mirrors, lenses ...

Alameda Applied Sciences Corporation (AASC) proposes to develop a new class of real time integrating diamond radiation dosimeters. In Phase I AASC will demonstrate the feasibility of using diamond radiation detectors for monitoring personnel radiation dose. The sensitivity of these detectors will be determined and a concept design for a pocket real time dosimeter will be completed. The Phase ...