Microscale Plasma Devices (MPD)
Abstract
The goal of the Microscale Plasma Devices (MPD) program was to design, develop, and characterize MPD technologies, circuits, and substrates. The MPD program focused on development of fast, small, reliable, high-carrier-density, micro-plasma switches capable of operating in extreme conditions, such as high-radiation and high-temperature environments. Specific focus was given to methods that provide efficient generation of ions that can perform robust signal processing of radio frequency (RF) through light electromagnetic energy over a range of gas pressures. Applications for such devices are far reaching, including the construction of complete high-frequency plasma-based circuits, and microsystems with superior resistance to radiation and extreme temperature environments. Two and multi-terminal devices consisting of various architectures were developed and optimized under the scope of this program. MPDs were developed in various circuits and substrates to demonstrate the efficacy of different approaches. MPD-based microsystems were demonstrated in DoD applications where electronic systems must survive in extreme environments. The MPD applied research program focused on transferring the fundamental scientific advances funded by PE 0601101E, Project ES-01 to produce complex circuit designs that may be integrated with commercial electronic devices. The MPD program resulted in the design and modeling tools, as well as the fabrication capabilities necessary to commercially manufacture high-performance microscale-plasma-device-based electronic systems for advanced DoD applications.
Document Details
- Document Type
- Accomplishment
- Publication Date
- Oct 01, 2017
- Source ID
- 9b1bdeb53365175baa7f26b63b23b9c8
Related Documents
- Root: ELECTRONICS TECHNOLOGY