Leak-tight heat exchanger integrity inspection using tracer material

What is claimed is: 1. An inspection system comprising: an energy detector configured to detect a presence of a tracer material in a structure; a data analysis system in signal communication with the energy detector, the data analysis system configured to receive data regarding detection of the presence of the tracer material in the structure; and an energy source configured to direct energy towards the structure being tested, wherein the data analysis system is configured to perform spectral analysis regarding the data received from the energy detector, wherein the data analysis system determines a tested spectra regarding the structure being tested using the data received from the energy detector and compares the tested spectra to a reference spectra stored to a memory of the data analysis system, wherein the reference spectra corresponds to a spectra of the structure when the tracer material is positioned in a desired configuration relative to the structure, and wherein the data analysis system generates a control signal indicative of an unsuitable braze joint when a threshold value of difference is reached when comparing the tested spectra to the reference spectra. 2. The inspection system of claim 1 , wherein the energy source is a neutron generator. 3. The inspection system of claim 1 , wherein the tracer material is disposed within a braze filler material used to couple two or more components forming the structure. 4. The inspection system of claim 3 , wherein the tracer material is substantially evenly distributed throughout the braze filler material. 5. The inspection system of claim 3 , wherein the tracer material is not alloyed with the braze filler material. 6. The inspection system of claim 3 , wherein the tracer material is boron-10. 7. A method of inspecting a braze joint within a structure, the method comprising the steps of: disposing a tracer material in a braze filler material used to form the braze joint; and detecting a presence of the tracer material in a desired configuration in the braze joint to determine an integrity of the braze joint; and analyzing data accumulated during the detecting of the presence of the tracer material at the braze joint, wherein the analyzing of the data includes performing spectral analysis regarding the data, wherein the spectral analysis includes determining a tested spectra regarding the braze joint and comparing the tested spectra to a reference spectra, wherein the reference spectra corresponds to a spectra of the braze joint when the tracer material is positioned in a desired configuration, and wherein a difference determined between the tested spectra and the reference spectra indicates that the tracer material is not positioned at the desired configuration. 8. The method of claim 7 , further comprising a step of directing energy towards the braze joint to interact with the tracer material. 9. The method of claim 8 , wherein the energy is a stream of neutrons directed by a neutron generator.