Applied physics8/7/2023 ![]() ![]() The remaining six credit hours may be out-of-discipline courses taken at Catholic University with the permission of the student’s advisor or program director. Courses will be selected in consultation with the program director such that no more than twelve credit hours may be accumulated from courses below 600-level. Interested students must select this option no later than the end of the student’s first semester in the program. Before deciding on the thesis option, students interested in this track will consult extensively with the program director. In the thesis option, a maximum of six credit hours may be devoted toward independent research performed for the preparation of a thesis and at least eighteen semester hours must be from Applied Physics and Nanotechnology courses. ![]() A cumulative GPA of 3.0 in courses selected in consultation with a faculty member and the program director will be the criterion for awarding the M.S. The remaining six credit hours may comprise courses taken in other departments at Catholic University with the director’s consent. In the non-thesis program, the students will be required to take at least twenty-four semester hours from the list of approved courses. Students will receive extensive guidance from their academic advisor and program director to tailor a course of study consistent with student interests and program requirements. In order to accomodate students with varied academic backgrounds, we may allow substitutions in the "Core Courses" on a case-by-case basis. Courses will be selected from an approved list of courses.Īs the program is designed around the educational needs of a diverse group of students from different backgrounds such as biology, chemistry, physics, mathematics, and allied technical disciplines, all students will be required to take at least six “Core Courses” as identified in the list of approved courses. Two ‘C’ grades will lead to automatic expulsion of the student from the program. If a student gets a ‘C’ (or lower grade) in a course he/she may be allowed (at the discretion of the program director) to retake that course to improve the grade to at least ‘B’. requires successful completion of at least fifty three credit hours of graduate course work, a disseration based on original research, and passing the comprehensive examination (in addition to other departmental and University requirements.) For successful completion of either degree, the cumulative GPA is required to be at least 3.0. program must complete a minimum of thirty semester hours of graduate work while a PH. Students will develop a course schedule in consultation with a member of the Physics faculty and the program director, who will serve as their advisor.Ĭandidates for the M.S. Note that GRE scores may be waived on a case-by-case basis. Selection criteria for the program includes GPA and GRE scores, professional experience, and recommendations. Students with or about to earn bachelor’s degrees in any of the sciences, in mathematics, or in engineering and other technical disciplines will be eligible for the master’s program. The course work is designed around the needs of students from varied backgrounds and will provide the required conceptual pre-requisites. A key goal of the program is to provide students with ample opportunity to learn the practical aspects of cutting edge experimental, nanofabrication, microfabrication, and characterization methods, leading to a skill-set that allows them to transition from academia to industry. Students will be mentored by active scientists and researchers and encouraged to make full use of state-of-the-art facilities. The program is built around a hands-on, experimentally-focused curriculum taught by leading scientists and experienced instructors specializing in nanotechnology and materials physics. This program is open to students from any of the sciences, mathematics, and engineering disciplines, and is designed to teach students from diverse backgrounds the fundamentals of applied physics and nanotechnology. The Department of Physics offers Master of Science (M.S.) and Doctor of Philosophy (PH.D.) degrees in Applied Physics and Nanotechnology. Knowledge of the relationship between the structure of materials at the atomic scale and their macroscopic properties provides the foundation for the development of new classes of materials and devices with tailor-made properties, and forms the basis for paradigm shifting technological advances. Students interested in applying to the program should contact the program director, Abhijit Sarkar, at Physics and Nanotechnology are interdisciplinary fields built around the application of leading-edge physical principles and concepts. ![]()
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