Microdischarge-based transducer

The invention claimed is: 1. A sensor, comprising: a sensor body; a diaphragm supported in spaced apart relation to the sensor body and facing the sensor body across a gap; and a plurality of electrodes, each of which is attached to the sensor body or to the diaphragm at the gap and arranged such that, when the diaphragm deflects relative to the sensor body, the distance between a first pair of the electrodes changes, and the distance between a second pair of the electrodes does not change, wherein the first pair of electrodes includes a cathode on the sensor body and a sensing anode on the diaphragm, and the second pair of electrodes includes the cathode and a reference anode on the sensor body. 2. A sensor as defined in claim 1 , further comprising a spacer located between the sensor body and the diaphragm and partly defining a sealed chamber having a perimeter that surrounds the plurality of electrodes. 3. A sensor as defined in claim 2 , wherein the sealed chamber is a microdischarge chamber that contains a plasma when an ionizing voltage is applied across the pairs of electrodes. 4. A sensor as defined in claim 1 , further comprising electrical contacts accessible at an exterior of the sensor and through-glass vias (TGVs) electrically connecting the electrical contacts with the plurality of electrodes through the thickness of the sensor body. 5. A sensor as defined in claim 1 , further comprising electrical contacts accessible at an exterior of the sensor, wherein the sensor body comprises a doped semi-conductor layer electrically connecting the electrical contacts with the plurality of electrodes through the thickness of the sensor body. 6. A sensor as defined in claim 1 configured to be capable of operation in a micro discharge mode and in a capacitive mode. 7. A sensor as defined in claim 1 , wherein the second pair of electrodes includes the cathode and the reference anode on the sensor body, the cathode having a plasma-concentrating feature that extends toward a plasma-concentrating feature of the reference anode to define a minimum gap between opposing edges of the cathode and the reference anode. 8. A method of determining fluid pressure in a subterranean cavity, comprising the step of receiving information related to the amount of deflection of a diaphragm of a sensor immersed in a fluid located in the subterranean cavity, the sensor comprising a plurality of electrodes arranged in a sealed chamber such that the distance between a first pair of the electrodes changes more than the distance between a second pair of the electrodes when the amount of deflection of the diaphragm changes, wherein said information indicates the distribution of an electrical property among the plurality of electrodes in response to a voltage applied to the plurality of electrodes, wherein both of the second pair of electrodes are positioned on a body of the sensor equal distances from the diaphragm, wherein the sensor is a microdischarge-based sensor and said information includes differential current, defined as the ratio of: the difference in the current flow between the two pairs of electrodes, to the sum of the current flow between the two pairs of electrodes. 9. The method of claim 8 , wherein the step of receiving information includes receiving information related to the amount of deflection of each of a plurality of diaphragms of a corresponding plurality of sensors immersed in the fluid and dispersed in the subterranean cavity, each sensor comprising a plurality of electrodes arranged in a sealed chamber such that the distance between a first pair of electrodes of each sensor changes more than the distance between a second pair of electrodes of each sensor when the amount of deflection of each diaphragm changes, wherein said information indicates the distribution of an electrical property among the plurality of electrodes of each sensor in response to a voltage applied to the plurality of electrodes of each sensor. 10. A method of determining fluid pressure in a subterranean cavity, comprising the step of receiving information related to the amount of deflection of a diaphragm of a sensor immersed in a fluid located in the subterranean cavity, the sensor comprising a plurality of electrodes arranged in a sealed chamber such that the distance between a first pair of the electrodes changes more than the distance between a second pair of the electrodes when the amount of deflection of the diaphragm changes, wherein said information indicates the distribution of an electrical property among the plurality of electrodes in response to a voltage applied to the plurality of electrodes, wherein both of the second pair of electrodes are positioned on a body of the sensor equal distances from the diaphragm, wherein the sensor is a capacitive sensor and said information is based on a comparison of the capacitance between the first pair of electrodes and the capacitance between the second pair of electrodes. 11. A method of determining fluid pressure in a subterranean cavity, comprising the step of receiving information related to the amount of deflection of a diaphragm of a sensor immersed in a fluid located in the subterranean cavity, the sensor comprising a plurality of electrodes arranged in a sealed chamber such that the distance between a first pair of the electrodes changes more than the distance between a second pair of the electrodes when the amount of deflection of the diaphragm changes, wherein said information indicates the distribution of an electrical property among the plurality of electrodes in response to a voltage applied to the plurality of electrodes, wherein both of the second pair of electrodes are positioned on a body of the sensor equal distances from the diaphragm, wherein the first pair of electrodes includes a cathode on the sensor body and a sensing anode on the diaphragm, and the second pair of electrodes includes the cathode and a reference anode on the sensor body. 12. A method of determining fluid pressure in a subterranean cavity, comprising the step of receiving information related to the amount of deflection of a diaphragm of a sensor immersed in a fluid located in the subterranean cavity, the sensor comprising a plurality of electrodes arranged in a sealed chamber such that the distance between a first pair of the electrodes changes more than the distance between a second pair of the electrodes when the amount of deflection of the diaphragm changes, wherein said information indicates the distribution of an electrical property among the plurality of electrodes in response to a voltage applied to the plurality of electrodes, wherein both of the second pair of electrodes are positioned on a body of the sensor equal distances from the diaphragm, wherein the first pair of electrodes includes an anode on the sensor body and a sensing cathode on the diaphragm, and the second pair of electrodes includes the anode and a reference cathode on the sensor body. 13. A sensor, comprising: a sensor body; a diaphragm supported in spaced apart relation to the sensor body and facing the sensor body across a gap; and a plurality of electrodes, each of which is attached to the sensor body or to the diaphragm at the gap and arranged such that, when the diaphragm deflects relative to the sensor body, the distance between a first pair of the electrodes changes, and the distance between a second pair of the electrodes does not change, wherein both of the second pair of electrodes are positioned on a body of the sensor equal distances from the diaphragm, wherein the first pair of electrodes includes an anode on the sensor body and a sensing cathode on the diaphragm, and the second pair