Non-volatile memory device employing a deep trench capacitor

What is claimed is: 1. A semiconductor structure comprising: a power supply having a positive power supply voltage and a negative power supply voltage, the positive power supply voltage being distinct from the negative power supply voltage; a ground, the ground being distinct from each of the positive power supply voltage and the negative power supply voltage; a trench capacitor including an outer metallic layer, a node dielectric layer, and an inner metallic layer and located within a semiconductor substrate; and a set of switching devices comprising a first switching device, a second switching device and a third switching device, the set of switching devices being configured to provide a selected state from among three states based on a set of input signals; wherein a source node of said first switching transistor is electrically connected to said inner metallic layer and a drain node of said first switching transistor is electrically connected to: (a) a first node of said second switching transistor, a second node of said second switching transistor connected to said positive power supply voltage; and (b) to a first node of said third switching transistor, a second node of said third switching transistor connected to said negative power supply voltage; wherein said first, second and third switching devices are configured to controllably provide a first state in which said inner metallic layer is electrically connected to said positive power supply voltage through said first and second switching devices being turned on and said third switching device being turned off to program the node dielectric layer into a low leakage current state; wherein said first, second and third switching devices are configured to controllably provide a second state in which said inner metallic layer is electrically connected to said negative power supply voltage through said first and third switching devices being turned on and said second switching device being turned off to program the node dielectric layer into a high leakage current state, the difference between the low and high leakage current states being at least 5 orders of magnitude; and wherein said first, second and third switching devices are configured to controllably provide a third state in which said inner metallic layer is electrically isolated from any node having said positive power supply voltage and from any node having said negative power supply voltage by said first switching device being turned off. 2. The semiconductor structure of claim 1 , further comprising a current measurement device configured to measure leakage current through said trench capacitor under an applied bias voltage that has a magnitude that is less than a magnitude of said positive power supply voltage and is less than a magnitude of said negative power supply voltage. 3. The semiconductor structure of claim 2 , further comprising a sensing isolation transistor, wherein a source node of said sensing isolation transistor is electrically connected to said inner metallic layer and a drain node of said sensing isolation transistor is electrically connected to a node of said current measurement device through which said leakage current flows. 4. The semiconductor structure of claim 3 , wherein said first switching device is a programming isolation transistor, wherein said second switching device is a first power supply control transistor, wherein said third switching device is a second power supply control transistor. 5. The semiconductor structure of claim 1 , wherein said node dielectric layer comprises a material selected from a dielectric metal oxide and a dielectric silicate of at least one metallic element. 6. The semiconductor structure of claim 5 , wherein each of said outer metallic layer and said inner metallic layer comprises at least one elemental metal or a conductive nitride of at least one elemental metal. 7. The semiconductor structure of claim 1 , further comprising another trench capacitor including another outer metallic layer, another node dielectric layer, and another inner metallic layer and located within a semiconductor substrate, wherein said another node dielectric layer comprises a same material as said node dielectric layer and has a lesser thickness than said node dielectric layer. 8. The semiconductor structure of claim 7 , wherein said another outer metallic layer and said outer metallic layer have a same first composition and a same first thickness, and said another inner metallic layer and said inner metallic layer have a same second composition and a same second thickness. 9. The semiconductor structure of claim 7 , further comprising an access transistor including a source region that is electrically shorted to said another inner metallic layer. 10. The semiconductor structure of claim 7 , wherein said another trench capacitor is electrically isolated from any node having said positive power supply voltage and from any node having said negative power supply voltage.