Medical Physics: Radiation Oncology, Medical Physics: Radiological Physics - General
Accepting applicants for July 1, 2020
1 residency positions to be filled
2-Year Residency Program Overview
In our 12th year, the goal of the UTSW program is to improve the field of radiation oncology by educating thoughtful and informed medical physicists in the profession.
2 years of full-time clinical training where instruction is given within the Department of Radiation Oncology by a team comprised of:
25 physics and engineering faculty
21 molecular radiation biology faculty
Residents become an integral part of the Department performing clinical duties and interacting closely with the entire faculty and staff
Didactic courses in medical physics available through our CAMPEP-accredited Certificate Program
The successful applicant will join a team of 7 medical physics residents currently on site.
Applicants must have a Ph.D. in medical physics, physics or related field.
Preference is given to graduates of CAMPEP-accredited medical physics graduate programs Please note: All applicants are considered in the review process, including applicants from alternative pathways.
All applicants are required to have completed a minimum of 4 (of 6) graduate-level didactic courses described in AAPM Report 197S before entering the program.
Qualified to receive a temporary license through the Texas Medical Board.
A complete application must be submitted directly to our program by email.
Please provide: CV, personal statement, transcripts and 3 letters of recommendation
Contact email: firstname.lastname@example.org
Competitive Salary and Benefits
One of the top residency programs for competitive salary, including a discretionary fund each year
Each resident will attend at least one national professional meeting (e.g. AAPM, ASTRO, ABS, RSNA) during the program
Department of Radiation Oncology Overview
The Department of Radiation Oncology is part of the NCI-designated Harold C. Simmons Cancer Center, which offers exceptional opportunities for translation of laboratory science into clinical trials and provides an integrated program of medical, radiation, and surgical oncology. Our faculty are experts in the field for development and clinical implementation of innovative treatment strategies in radiation oncology. Our program provides:
Currently, more than 100,000 square feet of clinical space.
Some of the most advanced radiotherapy tools, including a few highlights:
Varian TrueBeams and VitalBeams
Varian Eclipse treatment planning system
Elekta Versa HD, Gamma Knife Icon
Accuray CyberKnife M6
Brainlab Airo CT
Excision GammaPod (the 2nd in the world)
Opening in 2021, an expansion of an additional 71,000 square feet to include:
HDR brachytherapy suite
Philips MRI-RT simulator
Two Varian Ethos systems
Two Varian Halcyon systems
Two Elekta Unity MR-Linac systems
We offer a broad range of radiation oncology procedures, including IMRT, SRS, SBRT, TBI, TSE, HDR and LDR brachytherapy, and nuclear medicine
Shielded OR dedicated for HDR brachytherapy and intra-operative HDR procedures.
About UT Southwestern Medical Center
UTSW ranks among the top academic medical centers in the world.
6 members of our faculty have been awarded Nobel Prizes since 1985
16 faculty are currently members of the National Academy of Sciences – one of the highest honors attainable by an American scientist
Multiple faculty are members of the Institute of Medicine, the Association of American Physicians, and the American Society for Clinical Investigation
Faculty members, who are responsible for a broad array of groundbreaking biomedical research advances, are respected for their dedication to teaching, training, and patient care
Over 17,000 full-time faculty and staff, provides training to nearly 3,600 medical, graduate, and allied health students, as well as residents and postdoctoral scholars each year
Ongoing support from federal agencies, private foundations, individuals, and corporations provides more than $489 million per year to fund over 5,800 research projects
Faculty members and residents provide care to more than 100,000 inpatients and oversee 2 million outpatient visits per year at our ambulatory clinics
About UT Southwestern Medical Center, Department of Radiation Oncology
UT Southwestern Medical CenterLocated in Dallas, Texas, UT Southwestern Medical Center ranks among the top academic medical centers in the world.Over 13,500 full-time faculty and staff, provides training to nearly 3,600 medical,graduate, and allied health students, as well as residents and postdoctoral scholars each year. 6 members of our faculty have been awarded Nobel Prizes since 1985The Department of Radiation Oncology is part of the NCI-designated Harold C. Simmons Cancer Center, which offers exceptional opportunities for translation of laboratory science into clinical trials and provides an integrated program of medical, radiation, and surgical oncology. Our faculty of 71 are experts in the field for development and clinical implementation of innovative treatment strategies in radiation oncology. With more than 100,000 square feet of clinical space, our facility has the most advanced radiotherapy tools available.
AAPM Career Services has listings for medical physics jobs in specialized disciplines like radiation oncology, radiological physics, diagnostic imaging, dosimetry, health physics, radiation safety, nuclear medicine, and imaging. Find a job here in industry as a certified medical physicist, chief physicist, or clinical physicist, or as an instructor, assistant or associate professor faculty member in medical physics.
The American Association of Physicists in Medicine (AAPM) is a partner in the AIP Career Network, a collection of online job sites for scientists, engineers,
and computing professionals. Other partners include Physics Today, the American Association of Physics Teachers (AAPT), American Physical Society (APS Physics), AVS
Science and Technology, IEEE Computer Society, and the Society of Physics Students (SPS) and Sigma Pi Sigma.