Metamaterial photocathode for detection and imaging of infrared radiation

The invention claimed is: 1. A metamaterial photocathode (MMP) comprising: a MMP assembly comprising: a first and a second metal contact; a first substrate comprising a p-type semiconductor, wherein the first substrate has a first side with opposing first and second ends, wherein the first and second metal contacts are coupled to the first and second ends, respectively, wherein the first substrate has a second side opposing the first side; a plurality of metamaterial stacks (MMS) each comprising: a metamaterial absorber (MMA) layer comprising a metal compound, wherein the MMA layer is coupled to the second side of the first substrate; a second substrate layer comprising silicon, wherein the second substrate layer is coupled to the MMA layer; and a negative electron affinity (NEA) layer comprising cesium-oxide, wherein the NEA layer is coupled to the second substrate layer; a microchannel plate (MCP); a phosphorous screen or anode; a first vacuum layer between the MCP and the MMP assembly; and a second vacuum layer between the MCP and the phosphorous screen or anode; wherein an electrical circuit connects the first metal contact, MCP, phosphorus screen or anode, and second metal contact such that applying a current through the circuit creates an electric field across the MMP; wherein electron hole pairs (EHP) comprising a first plurality of electrons form within the first and second substrate layers when infrared radiation strikes the MMP assembly, wherein the electric field draws the first plurality of electrons from the first and second substrate layers towards the phosphorus screen or anode and draws a first plurality of electron holes towards the first and second metal contacts; wherein the first plurality of electrons interacting with the MCP causes a second plurality of electrons to form within the MCP; wherein the first and second pluralities of electrons interact with the phosphorus screen to generate a signal; wherein a third plurality of electrons enters the MMP assembly through the first or the second metal contact and fills the first plurality of electrons holes. 2. The MMP of claim 1 , wherein the first and second metal contacts comprise gold. 3. The MMP of claim 1 , wherein the p-type semiconductor is silicon.