Graduate
Medical-Physics Curriculum
PH.D. in Applied Physics With Concentration in Medical Physics
For degree requirements please check the latest . Applicants must have a solid foundation in physics, demonstrated either by an undergraduate or graduate degree in physics, or by a degree in an engineering discipline or other physical sciences with coursework equivalent to a minor in physics (i.e., at least three upper-level undergraduate physics courses that are required for a physics major).
The CAMPEP-accredited degree program is a cooperative effort between the University of South Florida鈥檚 Department of Physics and the H. Lee Moffitt Cancer Center and Research Institute鈥檚 Departments of Radiation Oncology, Diagnostic Imaging and Interventional Radiology, and Machine Learning.
The program's main objective is to train future applied physics scientists with a fundamental knowledge and research experience in the field of Medical Physics, and thus it is designed as a Ph.D. program. Moreover, the graduates will be fully prepared for entry into a Medical Physics residency program if they so choose. For students to successfully complete the program they must:
- Fulfill the curriculum requirements for a Ph.D. in Applied Physics from USF
- Fulfill the CAMPEP.org course requirements for Medical Physics
- Perform Medical Physics research leading to a dissertation and a minimum of two papers submitted to peer-reviewed journals before graduation
As designed the program will impart knowledge and skills to students per CAMPEP standards for graduate programs, specifically:
- Fundamental knowledge in Physical Sciences and Mathematics
- A rigorous understanding of scientific research and how it leads to the creation of new knowledge, reassessment of existing knowledge, and the overall advancement of science
- Competence in the application of the scientific method to solve specific problems
- Comprehensive knowledge of current research and scholarship in Medical Physics
- Communication skills to succeed in the current collaborative and competitive world
- Commitment to life-long learning, discovery, and dissemination of knowledge
- An understanding of the role of patient safety and a culture of safety in clinical practice
- Knowledge of the professional and ethical standards pertaining to Medical Physicists
Upon successful completion as stated above, in addition to the Ph.D. degree/diploma in Applied Physics, postgraduates will also receive a letter of attestation from the program director certifying that they have fulfilled the CAMPEP-accredited medical physics curriculum.
Therapeutic Medical Physics at the Moffitt Cancer Center (MCC)
Medical Physics is a medical specialty that applies physics principles to ensure that diagnostic and therapeutic procedures prescribed by physicians are delivered accurately and safely. To practice clinically, Medical Physicists are required to pass a rigorous set of examinations administered by the American Board of Radiology after completing a two-year clinical residency. Radiation Oncology, Radiology and Nuclear Medicine are highly technologically advanced medical fields and thus require a highly skilled professional and technical team to ensure optimal patient care. The Medical Physics Team provides clinical physics and dosimetry services at the Moffitt Cancer Center clinics. It currently consists of 25 physicists (13 faculty), 23 dosimetrists, and 2 physics residents. Program faculty from MCC also includes non-physicists from various clinical and research departments.
A comprehensive set of clinical state-of-the-art technologies are supported including three-dimensional conformal radiation therapy (3D-CRT), intensity-modulated radiation therapy (IMRT), image-guided radiation therapy (IGRT), surface-guided radiation therapy (SGRT), volumetric modulated arc therapy (VMAT), stereotactic radiosurgery (SRS), stereotactic body radiation therapy (SBRT), tumor motion management (4D imaging, planning and delivery; respiratory gating), magnetic resonance guided radiation therapy (MRIgRT with a MRI-Linac), total-body/marrow irradiation (TBI & TMI), total skin electron therapy (TSET), high-dose rate (HDR) brachytherapy, intraoperative radiotherapy for breast cancer (ITORT) and radiopharmaceutical therapies. MCC also offers a comprehensive set of medical imaging technologies (CT, MRI, PET, SPECT, etc.) as well as pre-clinical imaging technologies (microCT, microPET, microMR, various molecular imaging, etc.). In addition to clinical services, medical physicists are engaged in research and teaching.
For a summary of students in and out of the program, click on the following link:
USF-MCC MPP PhD-Information on Applicants Admissions & Graduates Nov 2024
For a general description of what Medical Physicists do, please go to: