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Prepare yourself for a career in physics by pursuing original research.
Our Department of Physics encourages you to pursue research that you find fascinating. Our graduate program provides a sound background in the fundamentals of physics through intensive course work in core subjects as well as an opportunity to develop your individual interests through a selection of electives. Our state-of-the-art labs allow you to conduct experiments on dozens of different topics, from optical properties of quantum well devices to particle dynamics simulations. With this solid education behind you, you’ll be poised to become a key contributor in physics, astronomy, medicine, engineering, and many other fields.
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Program Chair: Professor Raymond Tung 3438 Ingersoll Hall P: 718.951.5418 F: 718.951.4407
The physics program continues to track important changes in the field of physics and related fields. Significant new resources (over $1 million in research equipment recently), along with five new hires in the last four years, support new initiatives in science and education. Faculty members are working in a wide range of fields, many crossing the boundaries of traditional academic disciplines. Interdisciplinary research collaborations with faculty in other departments at Brooklyn College, at CUNY, internationally, and with industry provide an excellent research experience for students working with Physics Department professors. Current research includes a group doing work in expanding contemporary experimental condensed matter physics. There is also strength in theoretical condensed matter physics and atomic physics; theoretical nuclear physics; numerical simulations/statistical physics; and environmental science.
In the area of experimental condensed matter physics/materials science, research focuses on the following: the study of semiconductor interfaces, epitaxial growth of electronic materials, and electrical and structural characterizations of materials and interfaces; the study of ultrafast dynamic processes involving photo-generated carriers, including quasi-ballistic carrier transport, inter-valley scattering, and energy/ momentum relaxation in semiconductor nanostructures and nanodevices, for the next generation of nanoelectronics and nanophotonics; the synthesis of semiconductor materials such as quantum dots and nanowires, and devices based on those materials; the study of semiconductor materials suitable for the next generation of electronic and photonic devices such as deep UV emitters and detectors.
In the area of theoretical condensed matter physics and atomic physics, research focuses on understanding electronic structure using quantal density functional theory, with applications to atoms, molecules, and solids. Other work employs computer simulations to address questions in complex fluids and soft condensed matter. In the area of theoretical nuclear physics, research focuses on nucleon-nucleon and pion-nucleon interactions, nuclear bremsstrahlung, and relativistic quantum theory of nuclei.
In the area of environmental science, research focuses on studies of energy use and its impact on climate change, as well as on the physics and chemistry of global ecology. Experimental work uses NMR with ionic and non-ionic materials to contribute to new electrochemical devises.
Brooklyn College is regarded as one of the most technologically advanced campuses in the CUNY system. Students do experimental research work in our well-equipped laboratories, which feature state-of-the-art equipment for the characterization of materials and devices, as well as some facilities for materials growth and device fabrication. Students working in theoretical physics have access to high-power computing facilities in the department, on campus, and at CUNY, which has shared high-performance computing resources available to both faculty and graduate students. The recently refurbished and expanded Brooklyn College Library houses more than 1.3 million print volumes and provides access to over 40,000 electronic books and over 28,000 electronic journals.
Physics faculty members currently have grants from the National Science Foundation, the New York State Center for Advanced Technology, Stony Brook University, and private industry. Research laboratory space exceeds 36,000 square feet in a five-story science building, and planning is under way for a completely new science facility for education and research. A broad range of state-of-the-art research instrumentation is available in the department. These resources, along with shared-use facilities in other departments and research centers; our already established facilities in optical spectroscopy, surface spectroscopy, electron microscopy, scanning probe microscopy, and molecular beam epitaxy; and an accomplished, research-active faculty present an exciting environment for incoming doctoral students in which to conduct their doctoral research.
Several of the faculty are active participants in the CUNY Photonics initiative, including the New York State Center for Advanced Technology (CAT) in Ultrafast Photonic Materials and Applications at the City University of New York.
Some of the facilities and equipment available to students doing research in the department can be found here.
The Department of Physics provides students with opportunities to pursue original research along with a sound background in the fundamentals of physics. Students may choose a research specialization from the principal areas of modern theoretical and experimental physics.
The program provides a welcoming, supportive environment for graduate students enrolled in the CUNY Ph.D. Program in Physics. Students take courses, some of which are taught by Brooklyn College faculty, at the CUNY Graduate Center in midtown Manhattan. They do all of their research on campus at Brooklyn College, under the close supervision and careful mentoring of our faculty. Thesis research in a variety of specialties is mentored in a student-friendly environment housing state-of-the-art equipment for measurement, analysis, and computation. A low student/faculty ratio means that professors are highly available and supportive.
The research faculty understands that students are concerned about their careers after the doctoral degree. To ensure our doctoral students are competitive after they obtain their degrees, Brooklyn College offers students free professional development workshops in such areas as science teaching, grant writing, laboratory management, effective scientific communication, writing in the sciences, building a competitive curriculum vita, and preparing for and finding academic, industrial, and research jobs. Faculty commitment to chemistry doctoral students is not complete when they file their dissertations; the faculty continues to provide a supportive professional mentoring network to chemistry doctoral students as they advance in their careers.
