Abstract: The present invention provides the components and system for a self-assembling hardened network which will function without other infrastructure by creating a time-evolving map of the radiation dose and doserate. Other environmental sensors for additional purposes can be added to it. The network offers simple electronic applications able to be run on a hand held electronic device, with base station or booster elements and/or, the cell network in conjunction with a radiation detector to provide stay time and health hazard decision making support to individuals in unknown or varying radiation fields. This capability will survive prompt and fallout features of nuclear disasters, as well as other environmental issues or threats. This will be useful information when other public services are unavailable, and police and fire are overwhelmed.

Abstract: The present invention provides a system that can enable measurement of prompt and delayed radiation doses. Some embodiments provide a high dynamic range in dose and dose rate. Some embodiments can determine the direction of greatest dose and direction of lower radiation dose and dose rate. Embodiments include variations as well for individual and small group survival enhancement such as directional systems, packaging to meet harsh environmental conditions and nuclear survivability, low power, large-area dose and dose rate, rate mapping, data storage and exfiltration.

Abstract: Current state-of-the art ion sources do not meet multiple application needs for pulsed ion beams because current designs limit obtaining the needed peak currents, anode current densities, total currents, time averaged currents and lifetime in the same structure. High surface energy, power loading, material erosion and stresses damage surfaces. Our concepts for a ‘cold’ anode structure and ion source will reduce these erosion and damage issues. By extending lifetime and performance characteristics multiple applications can be enabled with lower maintenance and cost. The concepts here reduce the surface aging and provide the high performance (peak current, high current density and long lifetime required.

Abstract: The present invention provides a system that can enable measurement of prompt and delayed radiation doses. Some embodiments provide a high dynamic range in dose and dose rate. Some embodiments can determine the direction of greatest dose and direction of lower radiation dose and dose rate. Embodiments include variations as well for individual and small group survival enhancement such as directional systems, packaging to meet harsh environmental conditions and nuclear survivability, low power, large-area dose and dose rate, rate mapping, data storage and exfiltration.

Abstract: The present invention provides apparatuses comprising a plurality of junctions providing a Seebeck effect, configured as alternating hot and cold junctions. The apparatus can be configured such that the cold junctions exhibit a different thermal behavior than the hot junctions in response to incident radiation. The junctions can be connected in series, such that the sum of the Seebeck effect from the plurality of junctions provides a sensitive, inherently calibrated indication of heating of the apparatus responsive to incident radiation, and therefore of the radiation itself.