MEMP PhD Program

Hst’s memp phd program, is this program a good fit for me.

HST’s Medical Engineering and Medical Physics (MEMP) PhD program offers a unique curriculum for engineers and scientists who want to impact patient care by developing innovations to prevent, diagnose, and treat disease. We're committed to welcoming applicants from a wide range of communities, backgrounds, and experiences.

How is HST’s MEMP PhD program different from other PhD programs?

As a MEMP student, you’ll choose one of 11 technical concentrations and design an individualized curriculum to ground yourself in the foundations of that discipline. You’ll study medical sciences alongside MD students and become fluent in the language and culture of medicine through structured clinical experiences. You’ll select a research project from among laboratories at MIT, Harvard, affiliated hospitals and research institutes , then tackle important questions through the multiple lenses of your technical discipline and your medical training. As a result, you will learn how to ask better questions, identify promising research areas, and translate research findings into real-world medical practice.

What degree will I earn?

You’ll earn a PhD awarded by MIT or by the Harvard Faculty of Arts and Sciences.

What can I do with this degree?

Lead pioneering efforts that translate technical work into innovations that improve human health and shape the future of medicine.

How long will it take me to earn a PhD in HST’s MEMP program?

Similar to other PhD programs in MIT's School of Engineering, the average time-to-degree for MEMP PhD students is less than six years.

What are the degree requirements?

Science / engineering.

Choose one of the established concentration areas and select four courses from the approved list for the chosen area. Current MEMP concentration areas are:

  • Aeronautics & Astronautics
  • Biological Engineering
  • Brain & Cognitive Sciences
  • Chemical Engineering
  • Computer Science
  • Electrical Engineering
  • Materials Science & Engineering
  • Mechanical Engineering
  • Nuclear Engineering

Harvard MEMPs fulfill Basic Science/Engineering Concentration and Qualifying Exam through their collaborating department (SEAS or Biophysics).

Biomedical Sciences and Clinical Requirements

Biomedical sciences core.

  • HST030 or HST034: Human Pathology
  • HST160: Genetics in Modern Medicine
  • HST090: Cardiovascular Pathophysiology

Restricted Electives - two full courses required*

  • HST010: Human Anatomy
  • HST020: Musculoskeletal Pathophysiology*
  • HST100: Respiratory Pathophysiology**
  • HST110: Renal Pathophysiology**
  • HST130: Introduction to Neuroscience
  • HST162: Molecular Diagnostics and Bioinformatics*
  •  HST164: Principles of Biomedical Imaging*
  • HST175: Cellular & Molecular Immunology

*  May combine two half-courses to count as one full course **Must choose at least one of HST100, HST110

Clinical Core

  • HST201: Intro. to Clinical Medicine I and HST202: Intro. to Clinical Medicine II
  • HST207: Intro. to Clinical Medicine

PhD Thesis Guide

Letter of intent #1:.

Research advisor and topic. Due by April 30 of 2nd year.

Letter of Intent #2:

Tentative thesis committee. Due by April 30 of 3rd year.

Thesis proposal:

Defended before thesis committee. Due by April 30 of 4th year.

Final Thesis:

Public defense and submission of final thesis document.

Harvard MEMPs must an electronic copy of the final thesis including the signed cover sheet. Harvard MEMPs should not register for HST.ThG.

Qualifying Exam

TQE: Technical qualification based on performance in four concentration area courses and Pathology

OQE: Oral examination to evaluate ability to integrate information from diverse sources into a coherent research proposal and to defend that proposal

Professional Skills

Hst500: frontiers in (bio)medical engineering and physics.

Required spring of first year

HST590: Biomedical Engineering Seminar

Required fall semester of first year. Minimum of four semesters required; one on responsible conduct of research and three electives. Topics rotate.

Required for all MEMP students. (Biophysics students may substitute MedSci 300 for HST590 term on responsible conduct of research.)

Professional Perspectives 

Required once during PhD enrollment 

What can I expect?

You’ll begin by choosing a concentration in a classical discipline of engineering or physical science. During your first two years in HST, you’ll complete a series of courses to learn the fundamentals of your chosen area.

In parallel, you’ll become conversant in the biomedical sciences through preclinical coursework in pathology and pathophysiology, learning side-by-side with HST MD students.

With that foundation, you’ll engage in truly immersive clinical experiences, gaining a hands-on understanding of clinical care, medical decision-making, and the role of technology in medical practice. These experiences will help you become fluent in the language and culture of medicine and gain a first-hand understanding of the opportunities for — and constraints on — applying scientific and technological innovations in health care.

You’ll also take part in two seminar classes that help you to integrate science and engineering with medicine, while developing your professional skills. Then you’ll design an individualized professional perspectives experience that allows you to explore career paths in an area of your choice:  academia, medicine, industry, entrepreneurship, or the public sector.

A two-stage qualifying examination tests your proficiency in your concentration area, your skill at integrating information from diverse sources into a coherent research proposal, and your ability to defend that research proposal in an oral presentation.

Finally, as the culmination of your training, you’ll investigate an important problem at the intersection of science, technology, and medicine through an individualized thesis research project, with opportunities to be mentored by faculty in laboratories at MIT, Harvard, and affiliated teaching hospitals.

Interested in applying? Learn about the application process here.

Grissel Cervantes-Jaramillo

HST MEMP grad Grissel Cervantes-Jaramillo’s road to a PhD began in Cuba and wound through Florida

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Imaging Sciences Graduate Program

School of Health Sciences

With recent advances in medical imaging technology and techniques, the imaging sciences field is rapidly growing. Because the effects of these new imaging systems pose challenges with formation, acquisition and analysis of images describing processes in living tissue, imaging sciences is a necessary requirement in many jobs. In the imaging sciences graduate program, you will have the opportunity to work alongside faculty in the School of Health Sciences to develop new molecular imaging systems and techniques to advance our understanding of biological systems, applying these methods to the diagnosis and treatment of diseases.

Program Highlights

  • To advance imaging sciences research, the Purdue Life Science MRI Facility is dedicated to the advancement of basic and applied life science research with an emphasis on understanding human health and disease.
  • The imaging sciences field encompasses physics, engineering, chemistry, biology and medicine.
  • Meet and learn from your peers by joining the Medical Physics Club of Purdue or the Purdue Association for Magnetic Resonance .

Potential Careers

  • Development of 3D reconstruction methods, image processing techniques and analytical software
  • Development of new imaging instrumentation and techniques
  • Treatment of cancer and neurological diseases
  • Early diagnosis of acute chronic diseases


Program quick facts.

Degree Type : Doctoral

Program Length : Entering with BS: 4-5 years Entering with MS: 2-3 years

Location : West Lafayette, IN

Department/School : School of Health Sciences

As a part of the imaging sciences graduate program, you’ll have opportunities to engage in research across a variety of topics, including nutrition, environmental health, psychology, basic brain research, motor disorders, autism, cancer, neurodegenerative disorders and speech, language and auditory disorders

MRI machine

Research Opportunities

  • MRI and MRS in diagnosis of neurotoxicity and radiation response
  • Imaging and tracer development in PET and SPECT
  • Dynamic contrast enhanced imaging (CT, PCT) and thermoacoustic in image-guided therapy
  • Neutron and X-ray imaging in medicine and health sciences

Research Areas

  • Health physics (radiation protection)
  • Imaging sciences
  • Medical physics
  • Occupational and environmental health sciences (industrial hygiene, ergonomics)

Research Facilities

  • Life Science MRI facility
  • The Birck Nanotechnology Center
  • The Bindley Bioscience Center
  • The Regenstrief Center for Healthcare Engineering
  • Purdue’s Center for the Environment
  • Ulrike Dydak
  • Matthew Scarpelli
  • Keith Stantz


Applications submitted prior to January 10, 2023 will be considered for fellowships and awards .

Keith Stantz

Ulrike Dydak | Program Director

For questions regarding the imaging sciences graduate program, please contact [email protected] or our graduate coordinator, Karen Walker, at [email protected] .

The Ultimate Guide to Radiology Careers

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The Ultimate Guide to Radiology Careers

Considering a career in healthcare? Radiology, also referred to as medical imaging, offers the opportunity to choose from a wide range of modalities, all of which are integral to the diagnosis of illness and injury. 

Each area of specialization produces high-quality images that reveal what is happening inside the patient’s body. 

In this career guide we will discuss:

  • The careers in this field
  • Medical imaging technology
  • Salary ranges
  • Education and training
  • Who is best suited for this work

Find Healthcare Programs

I'm interested in, part one what is radiology.

Radiology is a science encompassing both the technologies that create high-quality images of structures within the body and the techniques applied by healthcare professionals in using that technology. The images are used for medical diagnoses, assessments, and interventions. 

The field dates back to 1895, when the x-ray was first invented by Wilhelm Rontgen . Since that time, numerous modifications and improvements have been made, and other modalities have been introduced. These include nuclear medicine, sonography, radiation therapy, computed tomography, and magnetic resonance imaging. 

Each new technology has expanded the ability to diagnose medical problems and offer better treatment options. 

Part Two What Can You Do in Radiology?

There is a wide range of options for allied health professionals in medical imaging. Allied health professionals are non-doctor and non-nursing professionals that use science and technology to contribute to the field of healthcare.

No matter which technology they specialize in, medical imaging allied healthcare professionals create high-quality images to be interpreted by radiologists. 

The importance of each service within medical imaging cannot be overstated, as the images produced are the foundation on which diagnoses are made and treatments are ordered. 

Each career within the field of medical imaging is defined by the technology that it uses to capture images. All require knowledge of physics, human anatomy, and physiology, as well as the ability to work with patients. 

Medical imaging professionals work in a wide range of job settings including: 

  • Imaging centers
  • Physicians’ offices 
  • Mobile imaging companies 
  • Research and academic centers 
  • Government agencies
  • Industrial plants 
  • Urgent care centers
  • Triage centers
  • Trauma center
  • Therapy center

Part Three Radiology Careers

Some radiology technologists move beyond healthcare and carry their knowledge into careers in sales and marketing. There is no limit to how many modalities an individual can be licensed in, though most individuals focus on a single specialty area. 

Each career within radiology has its own certification, training, and education requirements. Here are some of the most common positions in the medical imaging field, as well as their median annual salaries according to the U.S. Bureau of Labor Statistics and 

Radiology Technician - $67,180   per year

Also referred to as a radiographer, radiology technicians work with radiographic equipment to take X-rays that reveal organs and bones.

Computed Tomography (CT) Technologist - $121,770

Also known as CAT Scan technologists, these specialists use computerized x-ray equipment that captures detailed cross-sectional images of the internal structures of the human body.

Diagnostic Medical Sonographer - $63,020

Also known as ultrasonographers, these professionals work with equipment that utilizes high-frequency sound waves to show the internal structures and organs of the body.

Mammographer - $80,807

Also known as mammography technologists, the equipment these professionals employ uses ionizing radiation to capture images of the breast.

Nuclear Medicine Technologist - $85,300

These professionals administer a radioactive drug and then capture its distribution and concentration in the body via cameras that utilize gamma rays. They also are responsible for administering radioactive drugs to treat some cancers.

Magnetic Resonance Imaging Technologist - $80,090

Also known as MRI technologists, these professionals work with equipment that employs radio waves, magnets, and computer technology to create images of the body.

Special Procedures Technologist - $82,200 

Also known as vascular technologists, these professionals work with a variety of specialized equipment to study the body’s blood vessels and to perform procedures that widen them. 

Radiation Therapist - $89,530

A radiation therapist administers radiation treatments to patients with cancer, tumors, and other diseases. Also known as radiologic technologists, these healthcare professionals work with oncologists and surgeons to coordinate and provide radiation treatments for patients.

Part Four Radiology Education and Training 

No matter which modality you choose, medical imaging professionals need to complete rigorous educational requirements, pass the national certification exam associated with their specialty area, and meet state licensing requirements.  

Some modalities, including radiographer and diagnostic medical sonographer , are considered entry-level. 

Others are advanced-level positions that require certification and specialized training. 

These include

Computed Tomography Technologist

Nuclear Medicine Technologist


Special Procedures Technologist

Radiology Programs

No matter which modality you choose, there are three different educational paths available. They are: 

  • A four-year bachelor’s degree
  • A two-year associate's degree 
  • A certificate program (usually intended for those with healthcare experience)

To ensure that you receive an education that will fully prepare you for the career you choose, make sure that the programs you apply to have been accredited by the Joint Review Committee on Education in Radiologic Technology . 

In each program, you can expect to take the following classes.

  • Radiology theory
  • Radiation physics
  • Image evaluation
  • Patient positioning
  • Patient safety 

Online Radiology Programs

Though many programs offer the opportunity to complete some coursework online, you will be required to have practical experience in positioning and the use of imaging equipment. 

There is also the option for those who have already earned a medical imaging certification to pursue a Bachelor of Science or another advanced degree online. This is an excellent choice for technologists who are interested in moving into management. 

Whether you choose to pursue an associate’s or bachelor’s degree, once you’ve completed your medical imaging program you will need to be certified in your specialty area and become licensed in your state. 

Part Five Who Should Consider a Career in Radiology?

Medical imaging or radiology professionals have a demonstrated interest in science, as well as technology, and in providing high-quality care. To enter the field and attain the education and training, you must be dedicated to studying and learning math, anatomy, physics, and the technical knowledge needed to operate the equipment and position patients correctly. 

In addition, you need the ability to work collaboratively with other members of the health care team and to exhibit a calm, competent, confident demeanor to patients of all ages, some of whom may be frightened, in pain, anxious, angry, or confused.

Good candidates for a career in medical imaging are intelligent, personable, and detail-oriented people who possess an interest in science and a dedication to quality care. In return, they get the benefit of being able to work as part of a team committed to patient wellbeing, days filled with interesting cases and the ability to meet interesting people, a predictable and flexible schedule, and a solid income that offers career advancement and job security. 

Part Six How to Get Started in a Radiology Career

Once you’ve decided that medical imaging is the right career for you, your next step is to select the accredited program that best meets your needs. Selecting the right program will be based on numerous factors, including location, cost, and the program’s reputation. 

Medical imaging programs are competitive, and each school has its own admissions requirements for acceptance into the program. Most require:

  • High school diploma or equivalent
  • Prerequisite courses in science and math
  • Completed application
  • Personal interview with faculty
  • Letters of recommendation
  • Completion of Psychological Services Bureau Health Occupations Aptitude Examination
  • Criminal background check

Part Seven Radiology Resources 

For more information on a career in medical imaging, visit the following websites:

  • American College of Radiology
  • American Healthcare Radiology Administrators (AHRA)
  • American Institute of Ultrasound in Medicine (AIUM)
  • American Registry of Radiologic Technologists (ARRT)
  • American Society of Radiologic Technologists (ASRT) 

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Imaging Science Doctor of Philosophy (Ph.D.) Degree

Two people calibrating an imaging device against a black backdrop.

Request Info about graduate study Visit Apply

Reach the pinnacle of status of higher education in imaging science acquiring the capabilities, skills, and experience to succeed in this diverse field.

STEM-OPT Visa Eligible

Overview for Imaging Science Ph.D.

The Ph.D. in imaging science signifies high achievement in scholarship and independent investigation in the diverse aspects of imaging science. Students contribute their fundamental body of knowledge in science and engineering that is associated with this field of study. As an imaging Ph.D. candidate, you’ll acquire the capabilities, skills, and experience to continue to expand the limits of the discipline and meet future scholarly, industrial, and government demands on the field.

Candidates for the doctoral degree must demonstrate proficiency by:

  • Successfully completing course work, including a core curriculum, as defined by the student’s plan of study;
  • Passing a series of examinations; and
  • Completing an acceptable dissertation under the supervision of the student’s research advisor and dissertation committee.

Plan of Study

All students must complete a minimum of 60 credit hours of course work and research. The core curriculum spans and integrates a common body of knowledge essential to an understanding of imaging processes and applications. Courses are defined by the student’s study plan and must include core course sequences plus a sequence in a topical area such as remote sensing, digital image processing, color imaging, digital graphics, electro-optical imaging systems, and microlithographic imaging technologies.

Students may take a limited number of credit hours in other departments and must complete research credits including two credits of research associated with the research seminar course, Graduate Seminar.

Graduate elective courses offered by the Chester F. Carlson Center for Imaging Science (and other RIT academic departments in fields closely allied with imaging science) allow students to concentrate their studies in a range of imaging science research and imaging application areas, including electro-optical imaging, digital image processing, color science, perception and vision, electrophotography, lithography, remote sensing, medical imaging, electronic printing, and machine vision.

Advancement to Candidacy

Advancement to candidacy occurs through the following steps:

  • Advisor selection
  • Submission and approval of a preliminary study plan
  • Passing a written qualifying exam
  • Study plan revision based on the outcome of qualifying exam and adviser recommendation
  • Research committee appointment
  • Candidacy exam based on thesis proposal

Following the qualifying exam, faculty decide whether a student continues in the doctoral program or if the pursuit of an MS degree or other program option is more acceptable. For students who continue in the doctoral program, the student's plan of study will be revised, a research committee is appointed, candidacy/proposal exams are scheduled, and, finally, a dissertation defense is presented.

Research Committee

Prior to the candidacy exam, the student, in consultation with an advisor, must present a request to the graduate program coordinator for the appointment of a research committee. The committee is composed of at least four people: an advisor, at least one faculty member who is tenured (or tenure-track) and whose primary affiliation is the Carlson Center for Imaging Science (excluding research faculty), a person competent in the field of research who is an RIT faculty member or affiliated with industry or another university and has a doctorate degree, and the external chair. The external chair must be a tenured member of the RIT faculty who is not a faculty member of the center and who is appointed by the dean of graduate education. The committee supervises the student’s research, beginning with a review of the research proposal and concluding with the dissertation defense.

Research Proposal

The student and their research advisor select a research topic for the dissertation. Proposed research must be original and publishable. Although the topic may deal with any aspect of imaging, research is usually concentrated in an area of current interest within the center. The research proposal is presented to the student's research committee during the candidacy exam at least six months prior to the dissertation defense.

Final Examination of the Dissertation

The research advisor, on behalf of the student and the student's research committee, must notify the graduate program coordinator of the scheduling of the final examination of the dissertation by forwarding to the graduate program coordinator the title and abstract of the dissertation and the scheduled date, time, and location of the examination. The final examination of the dissertation may not be scheduled within six months of the date on which the student passed the candidacy exam (at which the thesis proposal was presented and approved).

Barring exceptional circumstances (requiring permission from the graduate program coordinator), the examination may not be scheduled sooner than four weeks after formal announcement (i.e. center-wide hallway postings and email broadcast) has been made of the dissertation title and abstract and the defense date, time, and location.

The final examination of the dissertation is open to the public and is primarily a defense of the dissertation research. The examination consists of an oral presentation by the student, followed by questions from the audience. The research committee may also elect to privately question the candidate following the presentation. The research committee will immediately notify the candidate and the graduate program coordinator of the examination result.'

All students in the program must spend at least two consecutive semesters (summer excluded) as resident full-time students to be eligible to receive the doctoral degree. If circumstances warrant, the residency requirement may be waived via petition to the graduate program coordinator, who will decide on the student’s petition in consultation with the advisor and graduate faculty. The request must be submitted at least nine months prior to the thesis defense.

Maximum Time Limit

University policy requires that doctoral programs be completed within seven years of the date of the student passing the qualifying exam. Bridge courses are excluded.

All candidates must maintain continuous enrollment during the research phase of the program. Such enrollment is not limited by the maximum number of research credits that apply to the degree. Normally, full-time students complete the course of study for the doctorate in approximately three to five years. A total of seven years is allowed to complete the degree after passing the qualifying exam.

National Labs Career Fair

Hosted by RIT’s Office of Career Services and Cooperative Education, the National Labs Career Fair is an annual event that brings representatives to campus from the United States’ federally funded research and development labs. These national labs focus on scientific discovery, clean energy development, national security, technology advancements, and more. Students are invited to attend the career fair to network with lab professionals, learn about opportunities, and interview for co-ops, internships, research positions, and full-time employment.

Students are also interested in: Imaging Science MS , Astrophysical Sciences and Technology MS

There's still time to apply.

Join us for Fall 2024

Many programs accept applications on a rolling, space-available basis.

Learn what you need to apply

The College of Science consistently receives research grant awards from organizations that include the National Science Foundation , National Institutes of Health , and NASA , which provide you with unique opportunities to conduct cutting-edge research with faculty. Faculty from the Chester F. Carlson Center for Imaging Science conduct research on a broad variety of topics including:

  • cultural heritage imaging
  • detectors and imaging systems
  • human and computer vision
  • remote sensing
  • nanoimaging
  • magnetic resonance
  • optical imaging

Learn more by exploring the Carlson Center's  imaging science research areas .

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Featured Work

Colombia’s Galeras Volcano

RIT researcher receives Department of Energy grant to develop synthetic aperture radar technology

Sandia National Laboratories awards a grant to James Albano, a researcher/engineer at RIT's Chester F. Carlson Center for Imaging Science, for remote sensing projects.

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Ph.D. student applies imaging science to preventing disasters

Kamal Rana, an imaging science Ph.D. student from India has helped create algorithms to identify upcoming landslides.

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Student Research

Cayla Fromm

Cayla Fromm, imaging science Ph.D. student, uses this apparatus in the PerForm Lab to study the visually guided strategies for walking and stepping over obstacles—a skill that breaks down with age and...

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Curriculum for 2023-2024 for Imaging Science Ph.D.

Current Students: See Curriculum Requirements

Imaging Science, Ph.D. degree, typical course sequence

* Students opting to take the IMGS elective in the first year would take 2 units of IMGS-PHD in the final year. Students opting not to take the IMGS elective would take 5 units of IMGS-PHD in the final year.  

Admissions and Financial Aid

This program is available on-campus only.

Full-time study is 9+ semester credit hours. International students requiring a visa to study at the RIT Rochester campus must study full‑time.

Application Details

To be considered for admission to the Imaging Science Ph.D. program, candidates must fulfill the following requirements:

  • Complete an online graduate application .
  • Submit copies of official transcript(s) (in English) of all previously completed undergraduate and graduate course work, including any transfer credit earned.
  • Hold a baccalaureate degree (or US equivalent) from an accredited university or college in the physical sciences, mathematics, computer science, or engineering.
  • A recommended minimum cumulative GPA of 3.0 (or equivalent).
  • Submit a current resume or curriculum vitae.
  • Submit a statement of purpose for research which will allow the Admissions Committee to learn the most about you as a prospective researcher.
  • Submit two letters of recommendation .
  • Entrance exam requirements: GRE optional but recommended. No minimum score requirement.
  • Writing samples are optional.
  • Submit English language test scores (TOEFL, IELTS, PTE Academic), if required. Details are below.

English Language Test Scores

International applicants whose native language is not English must submit one of the following official English language test scores. Some international applicants may be considered for an English test requirement waiver .

International students below the minimum requirement may be considered for conditional admission. Each program requires balanced sub-scores when determining an applicant’s need for additional English language courses.

How to Apply   Start or Manage Your Application

Cost and Financial Aid

An RIT graduate degree is an investment with lifelong returns. Ph.D. students typically receive full tuition and an RIT Graduate Assistantship that will consist of a research assistantship (stipend) or a teaching assistantship (salary).

Radiology Education section navigation

Medical imaging program.

phd in medical imaging technology salary

Medical Imaging Program Best in Class

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Take Your Medical Imaging Career to the Next Level

Welcome to the Emory University Medical Imaging Program. At this time, we are not accepting applications for Fall 2024 or Fall 2025 enrollment for the traditional 8-semester BMSc program. We still are accepting applications for the the RT to BMSc bridge program for registered technologists. Our bridge program is ideal for advancing both your skills and your career options.

students standing around xray table watching instructor operate equipment

Students acquire the knowledge and skills necessary for advanced professional competence through a blend of classroom and clinical education, including direct clinical experience with seasoned professionals. They study anatomy, physiology, and pathology as well as image production techniques and patient positioning to produce high-quality x-rays, computed tomography scans, magnetic resonance imaging studies, and more to aid in the diagnosis and treatment of medical conditions. They even train to assist radiologists with image-guided procedures.

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Emory University’s Medical Imaging Bridge Program offers advanced coursework in radiology administration, radiography education, and advanced clinical practice in computed tomography or magnetic resonance imaging, all of which makes graduates sought-after by top medical systems including Emory. Leadership options abound for graduates.

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Program Mission, Goals, and Outcomes

students looking at instructions while learning to position a patient for xray

The Emory University Medical Imaging Program seeks to develop leaders in medical imaging who will provide the highest quality compassionate care within a patient- and family-centered environment.

We are committed to recruiting and developing a diverse group of students who will serve the needs of their community as medical imaging professionals.

Specifically, the mission of the program is to produce well-educated, culturally and clinically competent, highly motivated medical imaging professionals who will safely perform quality diagnostic imaging procedures. Program graduates also will possess either advanced imaging skills in a specialty modality or leadership skills in education or management.

Program Goals and Outcomes:

  • Students will utilize effective oral communication skills.
  • Students will utilize effective written communication skills.
  • Students will be able to position the patient for routine radiographic procedures.
  • Students will set appropriate exposure factors.
  • Students will be able to evaluate radiographic images.
  • Students will be able to modify standard procedures to accommodate patient or environmental conditions.
  • Students will locate, interpret, and convey research related to professional practice.
  • Students will demonstrate leadership skills.

See Program Effectiveness Data here. Please note, the Job Placement Rate includes only those actively seeking employment. The JRCERT has defined not actively seeking employment as 1) graduate fails to communicate with program officials regarding employment status after multiple attempts; 2) graduate is unwilling to seek employment that requires relocation; 3) graduate is unwilling to accept employment, for example, due to salary or hours; 4) graduate is on active military duty; and/or 5) graduate is continuing education.

Contact Information

Additional information on applying for admission to these programs may be obtained by writing, phoning, or emailing as follows:

Medical Imaging Program EUH Education Annex Building 531 Asbury Circle Room N112 Atlanta, GA 30322

Mailstop: 1600-002-1AA Phone: (404) 712-5005  E-mail: ( [email protected] )

Important Links

Emory university links.

  • Emory University Home Page
  • Financial Aid
  • Transportation and Parking
  • Student Housing
  • School of Medicine
  • Department of Radiology
  • Directions to Campus
  • Diversity, Equity, and Inclusion

External Professional Links

  • Atlanta Society of Radiologic Technologists
  • Georgia Society of Radiologic Technologists
  • American Society of Radiologic Technologists
  • American Registry of Radiologic Technologists
  • Joint Review Committee on Education in Radiologic Technology
  • The Association of Educators in Imaging and Radiologic Sciences
  • The Association for Medical Imaging Management
  • Section for Magnetic Resonance Technologists
  • Aunt Minnie


Regional Accreditation

Emory University is accredited by the Commission on Colleges of the Southern Association of Colleges and Schools to award degrees at the associate, bachelor’s, master’s, and doctoral levels. This organization can be contacted at the following address:

Commission on Colleges Southern Association of Colleges and Schools 1866 Southern Lane Decatur, GA 30033-4907 (404) 679-4501

Programmatic Accreditation

The Medical Imaging Program is also accredited (eight-year award) by the Joint Review Committee on Education in Radiologic Technology. This organization can be contacted at the following address:

JRCERT 20 N. Wacker Drive Suite 2850 Chicago, IL 60606-3182 Phone: (312) 704-5300 Fax: (312) 704-5304 E-mail:   [email protected]

Emory University School of Medicine created the Office of Multicultural Medical Student Affairs in 1986 to increase minority representation in medicine and biomedical research. In 2019, the office changed its name to the Office of Multicultural Affairs to be more inclusive of all School of Medicine learners. The Office of Multicultural Affairs is an integral part of the School of Medicine's educational mission and its diversity and inclusion strategic vision. 

The office provides programs to support the development and matriculation of diverse learners, including medical students, health professions students, Graduate Medical Education trainees (residents and fellows), and K-12 students interested in health professions. To learn more about the Office of Multicultural Affairs, please visit: .

For further inquiries, please contact

Vanessa Fleites, PhD (she/her) Assistant Director for Learner Diversity Programs, Academic Health Office of Multicultural Affairs, Emory University School of Medicine [email protected]

Non-Discrimination Policy

Emory University is an equal opportunity/equal access/affirmative action employer fully committed to achieving a diverse workforce and complies with all applicable federal and Georgia state laws, regulations, and executive orders regarding nondiscrimination and affirmative action in its programs and activities. Emory University does not discriminate on the basis of race, color, religion, ethnic or national origin, gender, genetic information, age, disability, sexual orientation, gender identity, gender expression, and veteran's status. Inquiries should be directed to the Office of Equity and Inclusion, 201 Dowman Drive, Administration Bldg, Atlanta, GA 30322. Telephone 404/727-9867 (V) 404/712-2049 (TDD)

Non-discrimination Policy


Biomedical Imaging

The Master of Science in Biomedical Imaging Program is designed to provide STEM bachelor’s degree recipients with a comprehensive introduction to the physics, mathematics, radiochemistry, and engineering principles and methods that underly each of the major imaging modalities currently in use in clinical radiology and pathology.  The Program is highly interdisciplinary and includes faculty members with expertise in physics, radiology, engineering, mathematics, radiochemistry, and pathology.  Nearly all courses will be developed by faculty specifically for the Program.

The Master’s thesis portion of the program enables students to directly apply knowledge gained in the courses, either in one of the imaging research laboratories at Weill Cornell Medicine or Memorial Sloan-Kettering Cancer Center, or with a faculty member devoted to clinical service and innovation.  Graduates of the Program will be well positioned to secure jobs in academia, industry, and government, or further education in PhD or MD programs.

There has recently been tremendous growth in biomedical imaging research and clinical applications worldwide, and many faculty members participating in the Program are world leaders in the development of imaging biomarkers and their application to an extremely broad range of human diseases.  Weill Cornell Medicine and Memorial Sloan-Kettering Cancer Center are located on adjacent campuses, and together manage one of the most comprehensive inventories of imaging hardware and software in the world.  These scanners will provide a hands-on training environment to students.

A unique feature of the Program is the two-track structure.  While all students will enroll in the same courses, the Laboratory Track offers a traditional imaging research thesis project, while the Clinical Track offers a thesis project designed around innovations in the practice of Radiology.

Curriculum / Courses

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Program features include:

  • 24 months duration, full-time study
  • cohesive interdisciplinary educational program
  • individual mentored research project
  • career development training

Imaging Resources

Both Weill Cornell Medical College and Memorial Sloan-Kettering Cancer Center operate large, well-funded imaging research Core facilities that will be available to all students enrolled in the Program.  At Weill Cornell, the Citigroup Biomedical Imaging Center and Microscopy and Image Analysis Core facilities support over 100 research groups and include MRI, PET, SPECT, CT, ultrasound and optical imaging for studies of human subjects, animal models of disease, and specimens.  At Memorial Sloan-Kettering, the Animal Imaging Core provides investigators with unique capabilities for the noninvasive detection, localization, and characterization of primary and metastatic cancer cells in vivo in small animal models.  This Core also contains MRI, PET, SPECT, CT, ultrasound and optical imaging scanners and offers image analysis services.


Program Requirements

The Program is designed for applicants holding a bachelor’s degree in physics, chemistry, mathematics or engineering. Applicants must have completed undergraduate-level coursework in multivariable calculus including Fourier analysis techniques, ordinary and partial differential equations, linear algebra, probability theory or statistics, and computer programming.

We seek applications from students with diverse undergraduate degrees and welcome applications from talented individuals of all backgrounds.   All application forms and supporting documents are submitted online. You will be asked to submit or upload the following:

  • Personal Statement describing your background and specific interest in the MS-BI program.
  • Résumé/C.V.
  • Three letters of recommendation. Letters must be submitted electronically as instructed through the online application.
  • Transcripts from all previously attended colleges and universities:
  • Domestic Transcripts - Unofficial transcripts from U.S. institutions may be submitted for application review. Official transcripts will be requested from accepted students prior to matriculation.
  • If using WES, please select the WES Basic Course-by-Course evaluation and choose "Cornell University - Manhattan NY" as the recipient with "Weill Graduate School of Medical Sciences" as the School/Division 
  • Evaluations are accepted only from  current members of the National Association of Credit Evaluation Services (NACES) .  Official course-by-course evaluations are required for application review.
  • $80 application fee
  • Results of the General Graduate Record (GRE) examination are optional. The Institution Code Number is 2119.
  • Scores from the  Test of English as a Foreign Language (TOEFL) ,  International English Language Testing System (IELTS) , or  Duolingo English Test . Test scores are valid for two years after the test date. To see if you qualify for an exemption, see below.
  • To submit your official TOEFL scores, please go to  and request your scores to be sent to Weill Cornell Graduate School using code 2119. Please monitor your application to ensure that your scores are populated by ETS. Note: If you have taken the TOEFL iBT test more than once within the last 2 years, ETS will automatically include your  MyBest scores  along with the traditional scores from your selected test date. If you would like us to consider your MyBest scores, please write to let us know.  While the Graduate School will consider your MyBest scores, individual programs may not accept them.
  • IELTS scores are valid for two years after the test date. IELTS results must be submitted directly via e-delivery to “Weill Cornell Graduate School of Medical Sciences.”
  • Results for the Duolingo English Test are valid for two years after the test date. Applicants must submit their results directly through Duolingo to “Weill Cornell Graduate School of Medical Sciences".

Tuition, Fees, and Scholarships

The student services website contains program-specific details on tuition and fees: .

New scholarship opportunity: The Biomedical Imaging program is proud to announce the John Evans Professorship Endowed Tuition Assistance scholarship. This endowed tuition assistance scholarship was established to help support the professional development of two students enrolled in the​ master's program in Biomedical Imaging who have a financial need and to support diversity and inclusion in the field of Radiology/STEM as a path to reducing healthcare disparities. Find more information about this scholarship here:  John Evans Professorship Scholarship

Please note that tuition and fees are set for the current academic year but are subject to change each year.

English Language Proficiency Exam

The English language proficiency requirement may be waived if an applicant meets at least one of the following criteria:

Citizenship/Permanent Residency

  • If the applicant is a citizen or permanent resident of the United States or its territories (e.g., Puerto Rico), or a citizen of the United Kingdom, Ireland, Australia, New Zealand, or Canada, they are exempt.
  • Applicants who are citizens of all other countries, including India, Pakistan, the Philippines, Hong Kong, Singapore, etc. are not exempt and must submit English language proficiency exam scores.

English-Language Instruction

  • Applicants who, at the time of enrollment, have studied in full-time status for at least two academic years within the last five years in the United States, the United Kingdom, Ireland, Australia, or New Zealand, or with English language instruction in Canada or South Africa, are exempt.
  • Applicants must submit a transcript that shows they studied in one of the approved locations, and that the academic program was at least two years in length.
  • Even if English was the language of instruction of the course or institution, it must have been in one of the eligible locations, otherwise the applicant is not exempt from the requirement.

Application Timeline & Deadline

The application site for Fall 2024 admission is open.  Deadline for applications: April 30, 2024.     

Program Address

Weill Cornell Graduate School of Medical Sciences 1300 York Ave. Box 65 New York, NY 10065 Phone: (212) 746-6565 Fax: (212) 746-5981

Upcoming Events

We're always working on putting events together. Be sure to check back soon for more event listings.

Student Stories

Headshot for Juntong Jing

As a first-year graduate... I was amazed by the quantity and quality of our lab experience. 

  • Burgess, Mark
  • Deasy, Joseph
  • Mahmood, Usman
  • Mukherjee, Sushmita
  • Niogi, Sumit
  • Otazo, Ricardo
  • Robinson, Brian
  • Veeraraghavan, Harini

Douglas J. Ballon PhD Program Chair Professor of Physics in Radiology Director, Citigroup Biomedical Imaging Center Department of Radiology Weill Cornell Medical College 1300 York Avenue, Box 234 New York, NY 10021 (212) 746-5679 [email protected]

Andrew D. Schweitzer MD Program Director (Weill Cornell Medical College) Associate Clinical Professor of Clinical Radiology Department of Radiology Weill Cornell Medical College 1300 York Avenue, Box 234 New York, NY 10021 (212) 746-6711 [email protected]

Pat B. Zanzonico PhD Program Director (Memorial Sloan-Kettering Cancer Center) Attending Physicist and Member Co-Director, Small Animal Imaging Facility Department of Medical Physics Memorial Sloan-Kettering Cancer Center 1275 York Avenue New York, NY 10021 (646) 888-2134 [email protected]

Lucia Li Program Coordinator 1300 York Ave, Box 65 New York, NY 10065 [email protected]

Courses and Required Curricular Components

  • Anatomy for Imaging Scientists
  • Biomedical Imaging Master’s Thesis Research
  • Career Development in Biomedical Imaging
  • Health Literacy
  • Machine Learning with Images
  • Magnetic Resonance Imaging
  • Optical and Electron Microscopy
  • Physics in Nuclear Medicine
  • Special Topics in Biomedical Imaging
  • Ultrasound Imaging
  • X-Ray Methods and Computed Tomography

Student Handbook

To view the MSBI Student Handbook, click here .

Weill Cornell Medicine Graduate School of Medical Sciences 1300 York Ave. Box 65 New York, NY 10065 Phone: (212) 746-6565 Fax: (212) 746-8906


  • Pennsylvania
  • Certificate
  • Associate’s
  • Radiologic Technician
  • Radiologic Technologist

Radiologic Technologist Salaries

The field of radiologic technology provides opportunities to help others while potentially earning a salary above the US average, with expectations for positive job growth in the coming years. As you consider earning a degree in radiologic technology , you should become familiar with the various influences on radiologic technologist pay. These include the type of work environment, geographic area, the tech’s experience and education, and the modality or modalities in which a tech is trained. Continue reading to find comparisons showing how these factors influence earning potential as well as in-depth information on radiologic technologist (RT) or radiographer salaries by state.

How much do radiologic technologists make?

According to the American Society of Radiologic Technologists (ASRT), as of 2022, the national average annual salary for radiologic technologists was $77,027. 1 The majority (49.7%) of radiologic technologists hold an associate degree, while 30% have a bachelor’s degree, 12.6% have one or more certificates, and 6.5% have a master’s degree. 1 However, those with higher levels of education do tend to earn more than those with an associate degree. The average salary for a radiographer with an associate was $62,198, compared to $66,225 with a bachelor’s , $67,995 with certificates, and $78,996 with a master’s ; the increases in salary with increases in education tend to hold true across modalities. 1

At the same time, the modalities in which a radiologic tech specializes during their education can also make a noticeable difference in pay. According to the ASRT, staff technologists working in bone densitometry earned an average annual salary of $69,541, compared to technologists working in vascular sonography ($77,136) or radiologist assistant ($117,763). 1 The table below provides an overview of what radiologic technologists make, on average, by core practice area.

Radiologic Technologist Salary and Outlook

The salary a rad tech can expect varies widely on a variety of factors, including the highest level of education achieved, geographic area, and the modalities an individual is qualified to practice. Below you will find a quick look at national average salaries for radiologic technologists by area of practice. Be sure to check out our ranking of the best states for radiologic technologists for an in-depth comparison of salaries and job outlook by state.

“N.Av.” indicates no data available. *Limited scope x-ray techs are not tracked by the Bureau of Labor Statistics (BLS) so we used health technologists and technicians, all other as a proxy. **Medical physicists are included with other life scientists for the purposes of job and salary data collected by the BLS.

Radiologic Technologist Salaries by State

This sortable radiology tech salary and job outlook table provides key data for individuals interested in starting a career as a radiologic technologist. You will find the average annual salary for radiologic technologists in your state as well as the projected growth rate for radiologic and diagnostic tech jobs in all categories from 2020 to 2030. Note that while we use the group of radiologic technologists as a proxy for salary, the imaging specialty selected may result in a higher or lower average salary. For example, diagnostic medical sonographers earn an average annual salary of $75,380, while MRI technologists earn an average annual salary of $77,360. 4,5 Additionally, you can find the percentage of the median home list price that the average salary buys and the number of radiologic and diagnostic techs employed in each state. The states are ranked based on a combination of the job growth rate and the average salary/median home price ratio. Click on your state to learn about radiologic technology programs in your state.

Additional Resources

  • American Society of Radiologic Technologists (ASRT) : The ASRT provides data from annual wage and salary surveys of its active membership, including breakdowns by industry, modality, and more.
  • The American Registry of Radiologic Technologists (ARRT) : The ARRT provides in-depth information about career prospects in various modalities and practice areas.
  • American Registry of Magnetic Resonance Imaging Technologists (ARMRIT) : ARMRIT is a membership-based organization that promotes recognition of MRI technologists as a distinct specialty.

References: 1. ASRT Radiologic Technologist Wage and Salary Survey 2022: 2. Projections Central, Long Term Occupational Projections: 3. Bureau of Labor Statistics, Occupational Employment and Wages, Health Technologists and Technicians, All Other: 4. Bureau of Labor Statistics, Occupational Employment and Wages, Radiologists: 5. Bureau of Labor Statistics, Occupational Employment and Wages, Magnetic Resonance Imaging Technologists: 6. Bureau of Labor Statistics, Occupational Employment and Wages, Life Scientists, All Other: 7. Bureau of Labor Statistics, Occupational Employment and Wages, Nuclear Medicine Technologists: 8. Bureau of Labor Statistics, Occupational Employment and Wages, Radiation Therapists: 9. Bureau of Labor Statistics, Occupational Employment and Wages, Radiologic Technologists and Technicians: 10. Bureau of Labor Statistics, Occupational Employment and Wages, Diagnostic Medical Sonographers: 11. Zillow:

  • MTS Radiologic Technologist How to Become a Radiologic Technologist
  • Anesthesia Technician
  • Audiologist & SLP
  • Cardiovascular Technologist
  • Dental Assistant
  • Dental Hygienist
  • Diagnostic Medical Sonographer
  • Dialysis Technician
  • EKG Technician
  • EMT & Paramedic
  • Kinesiologist
  • Mammography Technologist
  • Medical Assistant
  • MRI Technologist
  • Neurodiagnostic Technologist
  • Nuclear Medicine Technologist
  • Ophthalmic Technician
  • Pharmacy Technician
  • Phlebotomist
  • Physical Therapist Assistant & Aide
  • Psychiatric & Mental Health Technician
  • Radiation Therapist
  • Radiologic Technologist
  • Respiratory Therapist
  • Surgical Technologist
  • Cytologist (Cytotechnologist)
  • Dental Lab Technician
  • Histotechnologist
  • Medical Lab Assistant
  • Medical Lab Technician
  • Biological Sciences
  • Biomedical Science
  • Biotechnology
  • Health Sciences
  • Medical Laboratory Scientist
  • Nutritionist & Dietitian
  • Pathologists' Assistant (PathA)
  • Pre-Vet (Veterinarian)
  • Biomedical Equipment Technician
  • Biomedical Informatics
  • Health Informatics
  • Health Information Management
  • Health Information Technology
  • Healthcare Administration
  • Medical Billing & Coding
  • Nursing Informatics
  • Sterile Processing Technician
  • Patient-Facing Technology Programs
  • Laboratory Technology programs
  • Natural & Clinical Lab Science
  • Medical IT & Administrative

Certification Guides

Career guides, interviews & features, becoming a radiologic technologist - education, certification & career, search for schools.

When you click on a sponsoring school or program advertised on our site, or fill out a form to request information from a sponsoring school, we may earn a commission. View our advertising disclosure for more details.

Radiologic technologists —also known as rad techs— provide an important service in the healthcare industry. With skills learned in either a two-year or four-year program, they work closely with radiologists to take images of patients and determine the suitability of those images for diagnostic purposes.

According to O*NET (2024), which sources its data from the US Department of Labor, 73 percent of radiologic technologists have an associate’s degree, while 11 percent hold a bachelor’s degree. 17 percent of technologists have a post-secondary certificate.

Compared to other professions that require just two years of school, radiologic technologists can make a good living. Of course, the salary data (discussed below), while compelling, does not tell the whole story. Prospective students and potential technologists will undoubtedly want to know what a day in the life of a radiologic technologist looks like. At its core, the job involves taking diagnostic images of patients in a clinical setting. The images that a radiologic technologist captures typically require the use of an X-ray machine or other imaging equipment.

While technologists do not interpret the images, they ensure that they are clear enough for physicians and radiologists to examine and use to make proper diagnoses. In addition, technologists maintain sophisticated imaging equipment and enforce safety standards around potentially hazardous equipment. They also work closely with patients to ensure they are comfortable and informed throughout their procedures, treatments, or check-ups.

Licensing for radiologic technologists rests on individual certification and registration authorities that differ from state to state. However, the American Registry of Radiologic Technologists (ARRT) offers both certification and registration that is required by some states. Consult the ARRT’s state-by-state licensing authority list for more information.

Beyond basic certification, technologists can specialize in a range of different procedures. These include but are not limited to, bone densitometry, breast sonography, computed tomography (CT), mammography, or vascular sonography.

Overall, there are good possibilities for radiologic technologists and those willing to put in the work to learn the necessary industry skills to do the job well.

Read on for a step-by-step guide on how to become a radiologic technologist.

Steps to Become a Radiologic Technologist

Not every radiologic technologist follows the same path to achieve their career goals. While some technologists may seek out an accredited radiologic technologist program at a two-year school, others will earn a bachelor’s degree. Each career path is unique, with rad-tech hopefuls coming from many different medical backgrounds.

The following steps represent the most direct path to becoming a radiologic technologist:

Step 1: Graduate from high school (four years):

High school (or equivalency) is mandatory for any radiologic technologist. If you’re planning to go into the field as early as high school, paying particular attention to science and mathematics courses is essential. These will be useful for future educational opportunities. If possible, high school students should also try to work or volunteer in a healthcare setting to understand what the career will entail.

Step 2: Apply for and attend an accredited undergraduate radiologic technology program (two to four years):

Radiologic technologists may earn either an associate’s or bachelor’s degree to be eligible for certification from the ARRT. As of April 2024, all applicants for ARRT certification in Radiography, Nuclear Medicine Technology, Radiation Therapy, Magnetic Resonance Imaging, or Sonography must have graduated from a school that is accredited by a body recognized by the ARRT. A complete list of those accrediting agencies is available from ARRT.

Earning a bachelor’s degree instead of an associate’s degree does not make an applicant more qualified for certification. Still, it may help further one’s education or find and match job opportunities. It should be noted that the degree earned, although it must be from an accredited institution, does not have to be in radiologic technology.

Step 3: Apply for certification and registration with ARRT (timeline varies):

There are no national licensing requirements for radiologic technologists, though many states have their own licensing process.

To maximize potential employability and establish expertise, most radiologic technologists choose to pursue certification with the ARRT. This process involves submitting proof of an acceptable academic record, filling out and submitting an ethics pre-application, and passing an exam that “assesses the knowledge and cognitive skills underlying the intelligent performance of the tasks typically required of staff technologists practicing at entry-level within the discipline.”

For entry-level positions, a certification in radiography is the most applicable. After working in this capacity, radiologic technologists may want to pursue specialty certification with the ARRT in areas such as mammography, bone densitometry, or cardiac-interventional radiography. Specializations include radiography, nuclear medicine technology, radiation therapy, MRI, and sonography.

Step 4: Maintain ARRT certification (every two years):

Technologists must renew their certifications every two years, first requiring compliance with all ARRT regulations, adherence to the ARRT standards of ethics, and completion of the required number of continuing education hours. Renewing technologists must either earn 24 credit hours each year to stay current with their certification or be awarded further certifications from the ARRT in other specialties.

Learn more about when certifications must be renewed and how to maintain them by consulting the ARRT’s continuing education requirements .

Occupational Demand and Radiologic Technologist Salary – Demand for Rad Techs How Much Do They Make?

The Bureau of Labor Statistics (BLS 2023) reports that between 2022 and 2032, openings for radiologic technologists are expected to grow by 5 percent nationally, which is faster than the average growth expected for all jobs during that time (3 percent). This equated to 12,200 new jobs.

According to the BLS, radiologic technologists and technicians held about 222,800 jobs in 2022. Among these, 58 percent worked at state, local, and private hospitals, 18 percent worked at physician offices, seven percent at medical and diagnostic laboratories, seven percent at outpatient care centers, and the remaining three percent at the federal government, excluding postal service.

The salary ranges for radiologic technologists in the US offer new possibilities for a higher quality of living. Here they are broken down into percentiles ( BLS May 2023):

PayScale (2024) is a salary aggregator where radiologic technologists and other professionals report their salaries. The ranges reported here are useful as a comparison to BLS data and are as follows for the more than 4,389 radiologic technologists reporting:

  • 10th percentile: $43,000
  • 50th percentile (median): $59,562
  • 90th percentile: $83,000

Of course, a salary can only go as far as living expenses allow, so noting the cost of living in these areas is also essential. According to the Missouri Economic Research and Information Center (MERIC 2023), the most expensive states in the country were Hawaii, the District of Columbia, Massachusetts, California, and New York. Notably, these states correspond almost exactly with the top-paying states for radiologic technologists. By contrast, the most affordable states were Mississippi, Kansas, Oklahoma, West Virginia, and Alabama—none of which are among the highest-paying regions.

In addition to the cost of living, geography impacts how much they will be able to make. According to the Bureau of Labor Statistics (BLS May 2023) once more, the following states are where you will find the highest average annual salaries for this particular profession:

The highest-paying states do not necessarily have the highest employment levels. Those concentration figures are listed from highest to lowest below. The following are states with the highest employment level in radiologic technologists and technicians: (BLS May 2023):

For the thorough researcher, there’s data available for salaries down to the metropolitan level. The BLS lists the top ten highest-paying cities for this profession, and perhaps unsurprisingly, all ten of those cities are in California. The average annual salaries for those cities are as follows (BLS May 2023):

Although the trend for this profession is expected to grow about 5 percent from 2022 to 2032, competition for radiologic technologist jobs will likely still be stiff, particularly in areas with a low concentration of employment. Those who wish to pursue the career successfully should be prepared to work hard in their selected educational program, which means extensive study and networking with other professionals in the field.

Kenneth Parker

Kenneth Parker is a feature writer, poet, and musician living in the Pacific Northwest. His writing on remote work, education, and technology has been published by,, and other websites. His poetry, short fiction, and album reviews have appeared in Scifaikuest, Nanoism, and No Clean Singing. His background includes time spent as an associate editor, proofreader, private grammar instructor, freelance content editor, medical claims agent, and SEO consultant. He is a graduate of the University of Oregon, where he studied literature and worked as a composition tutor.

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PhD Radio Imaging Technology: Course, Eligibility, Fees, Colleges, Syllabus, Scope

What is a phd in radio imaging and technology.

PhD Radio Imaging and Technology is an allied health science course which provides knowledge of various methods of treating diseases using radiography and imaging techniques. Students pursuing PhD Radio Imaging and Technology will focus mainly on radiation and ultrasound techniques. PhD Radio Imaging and Technology subjects cover various topics such as anatomy, physiology , biophysics , and imaging techniques. PhD Radio Imaging and Technology course mainly aims to train students in radiology and radiography. PhD Radio Imaging and Technology will get advanced knowledge of radiology and imaging techniques.

Generally, a PhD Radio Imaging and Technology course is for three years and it may also extend up to five years. Candidates who want to work in laboratories and operating rooms can choose PhD Radio Imaging and Technology courses. The core subjects studied in the PhD Radio Imaging and Technology syllabus are research into radiology, molecular biology, and regression analysis.

Highlights for PhD Radio Imaging and Technology

Phd radio imaging and technology eligibility criteria.

Candidates who want to take PhD Radio Imaging and Technology admission must fulfil certain requirements. Every college has different eligibility criteria for PhD Radio Imaging and Technology admission. PhD Radio Imaging and Technology eligibility criteria vary based on the specific institution, research proposal and reservation category. A few more important points that every candidate should remember are mentioned below:

Students must complete a master's degree in radiography or related from a recognised university or board.

Candidates should score at least 55 per cent marks in their master’s degree

The relaxation for reserved category candidates is up to 50 per cent.

Students have to appear for the entrance examination conducted by the university for pursuing a PhD in radio imaging and technology.

PhD Radio Imaging and Technology Admission

PhD Radio Imaging and Technology is the highest degree secured in a particular field. The PhD Radio Imaging and Technology admission procedure will differ from one college to another. Candidates should visit the official website of the college to know more about the admission procedure. If candidates want to pursue PhD Radio Imaging and Technology courses they need to appear for UGC NET, SLET, UGC CSIR NET and GATE entrance exams. Candidates who want to pursue advanced imaging technology must follow the below-mentioned steps for admission procedures.

Students must visit the official website of the college and should check the PhD Radio Imaging and Technology eligibility criteria.

They must meet the PhD Radio Imaging and Technology eligibility criteria for admission.

Applicants must submit all the required documents in the required format.

Shortlisted candidates must pay the application fee after completing the whole process of admission.

Top Entrance Exams for PhD Radio Imaging and Technology

There are many entrance exams conducted for allied science courses. Admissions for PhD Radio Imaging and Technology courses are based on the marks secured in the entrance examinations and qualifying exams. Here are a few top exams required for PhD Radio Imaging Technology courses.

UGC NET: UGC NET or University Grants Commission National Eligibility Test is also known as a national examination conducted by NTA. UGC NET exam is conducted for selecting candidates for lecturer or assistant professor positions in Indian institutions.

CSIR NET: CSIR NET or Council of Scientific and Industrial Research Nationwide Eligibility Test is a national level examination conducted by NTA and conducted for selecting graduates for Assistant Professors all over India.

Cutoffs for top colleges

The cutoff for PhD Radio Imaging and Technology can be defined as the minimum score for any entrance exam that has to be scored by graduates for admission to their choice of university and course. UGC NET is the most popular entrance examination for admission to different Ph.D. programmes. Its cutoff is released every year after the completion of the admission process. Cutoff marks can vary based on the specific institution, reservation category, and number of candidates appearing for the exam.

PhD Radio Imaging and Technology: Skills Required

PhD Radio Imaging and Technology are required to possess a lot of skills that are not only necessary for academics but also help them in getting a good job. A Ph.D. graduate is involved in research and evidence-based analysis. They are required to possess certain skills which help them to advance in their career. Some of the most important skills that a student is required to possess are mentioned below in the table:

PhD Radio Imaging and Technology Syllabus

The PhD Radio Imaging and Technology syllabus is based on the university or college chosen by the student. PhD courses will mainly concentrate on subjects related to research and quantitative aptitude. The table below is listed with the PhD Radio Imaging and Technology syllabus.

PhD Radio Imaging and Technology Fee Structure

PhD Radio Imaging and Technology fees structure may vary from one university to another. The fees collected from graduates will also be based on the specialisation chosen by them. To know more about the PhD Radio Imaging and Technology fee structure students can visit the official website of the college.

Scope After PhD Radio Imaging and Technology

Candidates after completion of the PhD Radio Imaging and Technology course will have ample opportunities in various sectors. This is the highest degree that can be earned by candidates in their academics. Most Ph.D graduates will work in academics such as assistant professors, and researchers. Additionally, these researchers can work on new methods of treatment using radio and imaging technology. They will develop many new methods and advanced techniques in radiography and imaging technology.

Career Options after a PhD in Radio Imaging and Technology

PhD Radio Imaging and Technology is a booming industry in the medical field. Radio and imaging techniques are nowadays used to scan for diseases and internal injuries. A few prominent career options for PhD Radio Imaging and Technology graduates are shown below:

Research Scientist: Research scientists are professionals who can work in academics, research agencies, and laboratories. They will invent new methods and new applications to advance their chosen field.

Professor: Professors are individuals who work in educational institutions and universities to teach students about courses related to radio and imaging technology.

Medical Imaging Specialist: Medical imaging specialists will work in medical centres and hospitals to diagnose patients using imaging techniques. They will also work on providing accurate and detailed imaging results.

Health Consultant: Health consultants' work includes guiding organisations and individuals about radio imaging technology. They also work on evaluating and recommending imaging technology and troubleshooting issues.

Top Recruiters for PhD Radio Imaging and Technology

There are many companies which are ready to hire graduates after completion of a PhD in Radio Imaging and Technology. Aspirants can work in both the healthcare and medical fields. Some of the employment areas where Ph.D graduates can work are mentioned below:

Apollo Hospitals

Fortis Hospitals

Max Hospitals

Benefits of Studying a PhD in Radio Imaging and Technology

A Ph.D. is the highest qualification in radio and imaging technology. A PhD in Radio Imaging and Technology provides a way for future opportunities. The doctoral degree in radiology is mostly valued by clinics, institutions, and research institutes. Researchers that are done with a Ph.D. are most valuable and highly quality with innovative ideas. These graduates can also work in radiology, diagnostic imaging, interventional imaging, and ultrasound.

Salary Trends for PhD Radio Imaging and Technology

An average PhD Radio Imaging and Technology salary for graduates after completing their courses will depend on various factors such as job profile, job location, skills and experience of the candidates. The PhD Radio Imaging and Technology salary for graduates may be low at the initial stage but as soon as they get experience they will earn more. In the table below, we have mentioned the PhD Radio Imaging and Technology salary of the careers that can be pursued after completing the PhD Radio Imaging and Technology course.

List of Top PhD Radio Imaging and Technology Colleges in India

There are only a few colleges that offer PhD courses in radio imaging and technology. These colleges and universities are well known for their academic excellence. In the table below, we have discussed the PhD Radio Imaging and Technology colleges in India and the PhD Radio Imaging and Technology fees.

Top Private Colleges for PhD Radio Imaging and Technology

There are only a few private colleges offering PhD courses in radio imaging and technology. In the table below, we have mentioned the private PhD Radio Imaging and Technology colleges in India and the PhD Radio Imaging and Technology fees.

Frequently Asked Question (FAQs)

The PhD Radio Imaging and Technology course eligibility is that students must have completed their masters degree in radiography and imaging or any related field from a recognised board or university in India. 

Yes, PhD Radio Imaging and Technology courses are valid research and evidence-based courses in India. The duration of the PhD Radio Imaging and Technology course is three years to five years.

Problem-solving, critical thinking, time management, and research skills are the important skills required for a PhD in Radio Imaging and Technology professional career.

Candidates can learn various topics in PhD Radio Imaging and Technology like new imaging techniques, radiation safety and protection, radiology management, and advanced physics of radiology.

The various career opportunities available in PhD Radio Imaging and Technology courses are research scientist, medical imaging specialist, research associate, and ultrasound specialist.

PhD Radio Imaging and Technology can be pursued in both full time or part time modes of education. While distance education for Ph.D is not allowed in India.

The highest package earned by the candidate after completing his PhD Radio Imaging and Technology is Rs. 12,00,000 LPA.

The tuition fee for the  PhD Radio Imaging and Technology course can range from Rs. 2,00,000 to Rs. 3,00,000.

The top companies that recruit candidates after graduation are Sun Pharma, Vijaya Diagnosis, Yashoda, Apollo, and other medical centres.

There are many benefits of PhD Radio Imaging and Technology courses such as they can work in many fields such as research, training centres, education, food services, public health, and sports.

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