Abstract: An electroprinting system having a voltage generator that produces a signal, a drop-on-demand (DOD) droplet generator actuated by the signal of the voltage generator, the drop generator having a wire for submersion into a viscous fluid, a power supply connected to the wire for supplying current to the DOD droplet generator, and a grounded collector for collection of the droplet generated by the DOD droplet generator. The drop-on-demand (DOD) droplet generator has a wire for plunging or threading through a meniscus of a viscous fluid, and an applied electrical potential to form a droplet from the viscous fluid. A method of electroprinting of a viscous fluid is also provided.

Abstract: A single phase, organic-inorganic sol-gel with controlled rheology that can be solidified readily and converted into a ceramic material is provided. The organic-inorganic sol-gel may be uranium-based or cerium-based. Highly spherical ceramic microspheres such as uranium or cerium gel microspheres are fabricated and are able to be converted to homogeneous ceramics after thermal decomposition at high temperatures. Pure phase UC2 can be obtained upon carbothermal reaction. Pure phase U2N3 can also be obtained after converting UC2 to U2N3.

Abstract: Methods of and apparatus for inspecting composite layers of a first material formed on a second material are provided including providing an illumination source, illuminating at least a portion of the composite at the layer, receiving light reflected from the sample, determining a spectral response from the received light, and comparing the received spectral response to an expected spectral response.

Abstract: Methods of and apparatus for inspecting composite layers of a first material formed on a second material are provided including providing an illumination source, illuminating at least a portion of the composite at the layer, receiving light reflected from the sample, determining a spectral response from the received light, and comparing the received spectral response to an expected spectral response.

Abstract: Methods of and apparatus for inspecting composite layers of a first material formed on a second material are provided including providing an illumination source, illuminating at least a portion of the composite at the layer, receiving light reflected from the sample, determining a spectral response from the received light, and comparing the received spectral response to an expected spectral response.

Abstract: Methods of and apparatus for inspecting composite layers of a first material formed on a second material are provided including providing an illumination source, illuminating at least a portion of the composite at the layer, receiving light reflected from the sample, determining a spectral response from the received light, and comparing the received spectral response to an expected spectral response.

Abstract: A method and apparatus are provided for determining an isotopic property of a sample mass including placing a sample mass on a solid state detector exposing the solid state detector to a neutron flux. The solid state detector is configured to receive fluorescence damage in response to interaction with a fission product produced from fission of at least a portion of the sample mass. The method also including exposing the solid state detector to a light source, measuring the light emissions of the fluorescence damage, and determining an isotopic property of the sample mass based on the light emissions of the fluorescence damage.

Abstract: A method and apparatus are provided for determining an isotopic property of a sample mass including placing a sample mass on a solid state detector exposing the solid state detector to a neutron flux. The solid state detector is configured to receive fluorescence damage in response to interaction with a fission product produced from fission of at least a portion of the sample mass. The method also including exposing the solid state detector to a light source, measuring the light emissions of the fluorescence damage, and determining an isotopic property of the sample mass based on the light emissions of the fluorescence damage.