Systems and methods of capturing transient elastic vibrations in bodies using arrays of transducers for increased signal to noise ratio and source directionality

What is claimed is: 1. A system comprising: a multi-element transducer array for attaching to a body of material under test that is configured to transmit a plurality of broadband signals representing propagating transient elastic broadband vibrations in the body of material under test and containing frequencies in a frequency band of interest of the transient elastic broadband vibrations, the frequency band of interest including a slowest-moving wave component of the transient elastic broadband vibrations; wherein the multi-element transducer array is configured with a maximum distance between furthest elements of the multi-element transducer array that is sufficiently small to capture a transit of a wave of the slowest-moving wave component of the transient elastic broadband vibrations within a transit time-window; wherein the transit time-window is less than a positive processing overlap time that includes times of the broadband signals that are able to be processed in real time by the system both with a first time-window and with a second time-window that immediately follows the first time-window of the broadband signals; a receiver circuit configured to process a plurality of broadband signals received from the multi-element transducer array, the receiver circuit further comprising: a time-coherency circuit configured to determine a plurality of time delays between a first reference broadband signal of the plurality of broadband signals and the other broadband signal(s) of the plurality of broadband signals such that when the plurality of broadband signals are time-shifted respectively by the plurality of time delays, a plurality of time-shifted broadband signals are created that are in time-coherence with each other; a combination circuit configured to create a combined broadband signal based on a summation of the plurality of time shifted broadband signals; and a threshold-determining circuit configured to determine which values of the combined broadband signal should be stored based on the values of the combined broadband signal being above a threshold at a time when none of the plurality of the time shifted broadband signals have a value over the threshold; and a combined broadband signal non-transitory memory and signal determined to be stored in the combined broadband signal non-transitory memory by the threshold-determining circuit. 2. The system of claim 1 , further comprising: a fluid filled compliant bladder configured for connection between the body of material under test and the multi-element transducer array and configured for coupling the slowest moving wave component transmitted through the body of material under test to the multi-element transducer array. 3. The system of claim 1 , further comprising: a threshold response circuit in communication with the time coherency circuit for capturing a time of an event in one broadband signal of the plurality of broadband signals that surpasses a threshold. 4. The system of claim 1 , wherein the transit time window is represented by a transit number of samples; wherein the positive processing overlap time is represented by a positive overlap of samples; wherein the transit number of samples is less than the positive overlap of samples; and wherein the positive overlap of samples includes one or more samples of the broadband signals that are able to be processed in real time by the system both with a first window of samples of a plurality of processed samples representing the transient elastic broadband vibrations and with a second window of samples of the plurality of processed samples that immediately follows the first window of samples in the plurality of processed samples of the broadband signals. 5. The system of claim 1 , wherein the time coherency circuit is configured to compute the plurality of time delays between the first reference broadband signal of the plurality of broadband signals and the other broadband signal(s) of the plurality of broadband signals based upon a plurality of cross correlation coefficients computed between the first reference broadband signal and the other broadband signal(s) of the plurality of broadband signals. 6. The system of claim 2 , wherein the fluid filled compliant bladder is configured to acoustically couple a rough surface of the body of material under test to a transducer of the multi-element transducer array.