The Ph.D. in Engineering Physics program provides advanced education and research opportunities to exceptional students by providing a research environment that fosters collaboration and creative thinking, with research findings published in nationally recognized journals. Areas of research emphasis include the measurement, theory and modeling of the near-space and space neutral and plasma environment, studies of the sun and stellar activity, orbital stability and dynamics, engineering spacecraft instrumentation and remote sensing measurements, and the design and implementation of electro-optical and radar systems.
The Department of Physical Sciences offers a graduate program leading to the Ph.D. in cutting-edge areas of engineering physics.
The department houses more than 20 faculty members. Assistantships and fellowships are available to well-qualified students.
The minimum entry requirement to the program is a bachelor's or master's degree in physics, engineering, or a suitably related field. A minimum CGPA of 3.2 is required for both the bachelor's and master's degrees completed. The program also requires a minimum GRE (verbal plus quantitative) score of 1200 in the old scale and 310 in the new scale, obtained within the previous two years of the application. Moreover, applicants are required to submit statements of goals (2-5 pages), to include reasons for wishing to pursue doctoral studies, incorporating interests and background, and three letters of recommendation. All applicants whose native language is not English, or who were educated at schools where English was not the language of instruction in all disciplines, must submit their official TOEFL scores sent directly from the testing authority. The minimum acceptable TOEFL score is 600 on the paper-based exam, 250 on the computer-based exam, and 105 on the Internet-based exam. Applicants will be vetted through a faculty admissions committee.
Students entering the doctoral degree program with a bachelor’s degree must follow the master of science degree requirements for 30 semester credit hours. Students must also complete an additional 45 semester credit hours to satisfy the doctoral program requirements.
This is an opportunity for the students to demonstrate to their dissertation committee that they understand the current research in their area of interest, and can formulate a thesis topic and a workable approach to the research. Committee members should have opportunities for in-depth discussions in the preparation of the proposal. The proposal is an opportunity for the student to demonstrate their verbal and written communication skills. Acceptance of the dissertation proposal is a significant milestone in the dissertation process.
The purpose of the dissertation process is to give the Ph.D. candidate an authentic experience in performing and reporting research which leads to generating new knowledge. For the Ph.D. in Engineering Physics, the general areas of research will be Spacecraft Engineering, Space Physics, and Upper-Atmospheric Physics. The dissertation process begins with a preliminary search of the scientific and engineering literature around certain possible research topics. Then, in conjunction with the Dissertation Advisor (DA), a specific topic is chosen. The candidate then writes a Prospectus (a research proposal) which is presented and discussed with the full Dissertation Committee (DC). Once all comments and suggestions are addressed, the candidate begins to work full time on a more specific literature search, formulation of tools for simulations, experimentation or analysis required, informally discuss progress on the research with the DA and the DC, and when completed, writes up the work in clear, technical English prose. The dissertation is then presented verbally in an advertised, public seminar, followed by a more thorough examination and defense with the DA and the DC. It is the expectation of the Ph.D. Program that each dissertation will lead to one or more peer-reviewed journal articles or proceedings papers.
Every student will be required to form a dissertation committee after they have passed their qualifying (comprehensive) examination and before they defend their dissertation proposal. The committee will be comprised of a minimum of four members, all of whom must be approved by the Ph.D. Program Committee. It will be chaired by the student's research advisor. One committee member will be external to the Ph.D. program. Initially, this will be a faculty member engaged in research at the Daytona Beach Campus of Embry-Riddle. Later, the possibility will be entertained that the external committee member will be an invited expert in the particular research field from a nationally renowned university or other research institution. The committee will be charged with monitoring student progress and examining student performance in their research through their dissertation proposal defense, seminars, and their written dissertation and dissertation verbal defense. When requested (by the student or advisor), the committee will also evaluate other student accomplishments related to research, such as accepted or published peer-reviewed journal and proceedings papers. The committee will meet at least once per semester.
At least once a year, students will be asked to give seminars on research topics which are pertinent to their research activities. Such seminars help demonstrate both scientific maturity, as well as verbal communication skills. Student progress will be monitored and appropriate feedback will be given to both the student (self-improvement) and to the Dissertation Committee (evaluation).
A dissertation is a major writing accomplishment and one that is heavily reviewed by the student's Dissertation Committee. It is also a major presentation accomplishment, because students are under pressure to respond quickly and accurately to all questions fielded by the committee and by others attending.
Students will be strongly encouraged to present the results of their research at national (and international) conferences, hone their presentation skills, solicit feedback from other experts in the field and to strengthen their ties to the University and research communities. Students will also be strongly encouraged to write the results of their research for publication in high-quality, peer-reviewed journals or proceedings.
M.S. in Aerospace Engineering
The Master of Science in Aerospace Engineering degree program prepares students for careers in the aerospace industry or in research and development through work on a graduate-level thesis.
M.S. in Mechanical Engineering
The Master of Science in Mechanical Engineering program gives students advanced studies in engineering with a specialization in Electro-Mechanical Systems.