Hyper-velocity impact sensor

We claim: 1. An impact sensor, comprising: a reference material configured such that varying and known amounts of the material are consumed during impact with different objects of known density at closing velocities within a specified range, wherein consumption of the reference material at impact produces a pulse of energy; a probe along the length of the reference material, said probe configured to provide a path to conduct the pulse of energy and generate one or more probe outputs indicative of the amount and rate of material consumed during impact; a circuit configured to readout the one or more probe outputs; and a processor configured to process the one or more probe outputs and extract height and width of the pulse of energy, estimate the density of and classify the impacted object as one of the known objects. 2. The impact sensor of claim 1 , wherein the reference material and probe extend from an impact point in a forward section of a projectile aft to a rear section where the probe is coupled to the circuit such that the circuit may receive and readout the probe output before the circuit is consumed. 3. The impact sensor of claim 1 , wherein the projectile is configured to explode, destroy with kinetic energy, embed or pass through the object. 4. The impact sensor of claim 1 , wherein the closing velocity at impact is at least 1,000 m/s. 5. The impact sensor of claim 1 , wherein the probe comprises an optical fiber that provides an optical path as the path, to conduct the pulse to the readout circuit, which comprises an optical detector. 6. The impact sensor of claim 1 , wherein the probe comprises a two-wire or coaxial cable that provides an electrical path as the path, to conduct the pulse to the readout circuit, which comprises an electronic readout circuit. 7. The impact sensor of claim 1 , wherein the probe comprises multiple probe elements at different depths of the reference material and a source that provides a signal to each of the probe elements, wherein consumption of the reference material breaks a number of probe elements interrupting the signal and causing the probe output to change state, wherein the circuit is configured to readout the states of the multiple probe elements. 8. The impact sensor of claim 7 , wherein the probe elements are optical or electronic. 9. The impact sensor of claim 1 , wherein the probe comprises a source that is configured to inject energy into a cavity to create a standing wave pattern, wherein consumption of the reference material at impact produces a pulse of energy that consumes the cavity causing the standing wave pattern to collapse and release stored energy in the form of a pulse, wherein the circuit reads out probe outputs that characterize the pulse. 10. The impact sensor of claim 9 , wherein the source is a source of RF, optical or acoustic energy. 11. An impact sensor, comprising: a reference material configured such that varying amounts of the material are consumed during impact with objects of differing density and thickness at closing velocities within a specified range to form a plasma that produces a pulse of energy wherein consumption of the reference material at impact produces a pulse of energy; a probe along the length of the reference material, said probe configured to provide a path to conduct the pulse of energy and generate outputs indicative of the amount of material consumed during impact; a circuit configured to readout a time sequence of outputs; and a processor configured to receive and process the time sequence of outputs and extract height and width of the pulse of energy and estimate the density and thickness of the impacted object. 12. The impact sensor of claim 11 , wherein the probe provides an optical or electronic path as the path, to conduct the pulse of energy to the readout circuit that reads out height and width of the pulse in one or more probe outputs. 13. The impact sensor of claim 11 , wherein the probe comprises multiple electronic or optical probe elements at different depths of the reference material and a source that provides an electrical or optical signal to each of the probe elements, wherein the pulse of energy breaks a number of probe elements interrupting the signal and causing the probe output to change state, wherein the circuit is configured to readout the states of the multiple probe elements. 14. The impact sensor of claim 11 , wherein the probe comprises a source that is configured to inject energy into a cavity to create a standing wave pattern, wherein consumption the pulse of energy consumes the cavity causing the standing wave pattern to collapse and release stored energy in the form of a pulse, wherein the circuit reads out probe outputs that characterize the pulse. 15. An impact sensor, comprising: a projectile configured to explode, destroy with kinetic energy, embed or pass through an object with a closing velocity greater than 1,000 m/s; a reference material and probe that extend from an impact point in a forward section of the projectile aft to a rear section, said reference material configured such that varying amounts of the material are consumed during impact with different objects to produce a pulse of energy, said probe configured to provide a path to conduct the pulse of energy and generate one or more probe outputs indicative of the amount of material consumed during impact; a circuit in the rear section of the projectile, said circuit configured to readout and transmit a time sequence of probe outputs; and a remote processor configured to receive and process the time sequence of probe outputs and extract height and width of the pulse of energy and estimate the density of or classify the impacted object. 16. The impact sensor of claim 15 , wherein the probe provides an optical or electronic path as the path, to conduct a pulse of energy to the readout circuit that reads out height and width of the pulse in one or more probe outputs. 17. The impact sensor of claim 15 , wherein the probe comprises multiple electronic or optical probe elements at different depths of the reference material and a source that provides an electrical or optical signal to each of the probe elements, wherein the consumption of the material breaks a number of probe elements interrupting the signal and causing the probe output to change state, wherein the circuit is configured to readout the states of the multiple probe elements. 18. The impact sensor of claim 15 , wherein the probe comprises a source that is configured to inject energy into a cavity to create a standing wave pattern, wherein consumption of the reference material destroys the cavity causing the standing wave pattern to collapse and release stored energy in the form of a pulse, wherein the circuit reads out probe outputs that characterize the pulse.