The Medical and Nuclear Physics Teaching Lab builds upon the successful implementation of a Health Physics program at TSU begun in 2008. Health Physics concerns the understanding of nuclear processes as it affects safe working environments for living organisms (i.e. human beings in particular), within medical facilities, nuclear power plants, food processing centers, etc. Some of the equipment resources in this lab include:
Students enrolled in the traditional health physics program at TSU take several semesters of laboratory classes, which focus on unique hands- on experiments involving various radiation detection apparatuses, analyses, and techniques. In the first laboratory component, students learn how to use a Geiger-Mueller system to measure radiation emitted for various
radionuclide species. In the second installment of the laboratory sequence, students learn how to use a sodium iodide detector system to measure spectroscopic signatures from gamma-emitting radioisotopes. The final course in this sequence is a nuclear electronics laboratory, in which students learn fundamental signal pulse analysis using standard instrumentation commonly employed in nuclear and radiation physics.
Given that Houston hosts the world’s largest Medical Consortium: The Texas Medical Center, it is natural to expand upon the proven Health Physics capabilities into Medical Physics. This concerns the understanding of nuclear physics as applied to medical diagnosis and treatment for illnesses such as cancer. To this extent, the Medical/Health – Nuclear Physics Teaching Laboratory will also expand into this area. TSU- Physics has produced exceptional students that are currently junior radiation officers at the MD Anderson Cancer Center, pursuing advanced degrees at Texas A&M University – College Station, and at the University of Texas at Austin.
Funding provided by grants from the Nuclear Regulatory Commission, NRC-38-07-495.