M.S. in Physics

Program Overview

The M.S. in Physics is a 30-credit degree program, typically completed within 1.5 to 2 years for full-time students. The curriculum is structured around four core courses (12 credits) that provide a fundamental understanding of key areas in modern physics, along with 18 credits of elective courses. Students have significant flexibility in choosing electives, allowing them to specialize in areas such as optics, quantum optics, solid-state physics, atmospheric science, or nanotechnology. For those inclined towards research, an optional Master's Thesis (up to 6 credits) can be pursued. The program aims to establish general expertise in physics while also promoting critical thinking skills essential for diverse career paths. Stevens reports impressive career outcomes for its physics graduates, with 100% employed within three months of graduation for the Class of 2023, and master's graduates overall from the School of Engineering and Science earning an average compensation of $87,230.

STEM-designated: Yes, the Stevens Institute of Technology M.S. in Physics program is unequivocally STEM-designated. This is a crucial advantage, particularly for international students. The STEM designation makes them eligible for a 24-month extension of their Optional Practical Training (OPT) in the United States, allowing for a total of up to three years of valuable post-graduation work experience. This designation clearly reflects the program's rigorous quantitative, scientific, and technological focus, which is highly valued by employers in research, technology, defense, and related scientific fields.

Curriculum: The 30-credit curriculum provides an in-depth education in core physics principles. Required core courses typically include: Quantum Mechanics I, Statistical Physics and Kinetic Theory, Mechanics, and Electricity and Magnetism I. The 18 credits of elective courses offer extensive opportunities for specialization. Students can choose from a wide array of graduate-level physics courses, including Fundamentals of Atomic Physics, Introduction to Solid State Physics, Quantum Information and Quantum Computation, Nonlinear Optics, Mathematical Methods of Science and Engineering, and various courses in astrophysics, atmospheric science, and nanotechnology. The curriculum also allows for relevant graduate courses from other departments with academic advisor consultation, further enabling interdisciplinary study and research.

Research Focus: The M.S. in Physics program at Stevens has a strong research focus, emphasizing cutting-edge areas in fundamental and applied physics. The Department of Physics is home to nationally recognized laboratories and centers, such as the Center for Quantum Science and Engineering (CQSE), the Center for Distributed Quantum Computing, the Light and Life Laboratory, and the NanoPhotonics Laboratory. Research efforts are concentrated on quantum technologies, aiming to address the talent gap for engineers developing futuristic quantum computers, imaging, AI, and communications applications. Specific research areas include atomic, molecular, and optical (AMO) physics, quantum science and engineering (including quantum sensing, super-resolution, imaging, and control), nanophotonics, classical analogy of quantum entanglement, and gravitational quantum physics. Students have ample opportunities to engage in formative research alongside faculty members, contributing to new knowledge that impacts society.

Industry Engagement: Stevens Institute of Technology places a strong emphasis on industry engagement for its Physics program. Its strategic location near New York City offers students access to a vibrant ecosystem of defense, aerospace, government, healthcare, energy, and IT industries that heavily rely on physics expertise. The curriculum is continuously infused with AI electives and hands-on education opportunities to develop in-demand skills aligned with rapidly evolving technologies. The department maintains connections with various industries, and the university's robust Career Center facilitates internships, co-op experiences, and job placements. Graduates are prepared for roles that require deep expertise, critical thinking, and interdisciplinary collaboration, making them highly sought after by companies in advanced technology sectors.

Global Perspective: Stevens Institute of Technology fosters a robust global perspective within its M.S. in Physics program. This is achieved through its diverse international student body, which enriches the learning environment with varied insights into global scientific methodologies, international research collaborations, and worldwide technological challenges. The fundamental principles of physics and their applications in areas like quantum computing, advanced optics, and atmospheric science are inherently global in scope. The program prepares graduates to contribute to international scientific endeavors and address complex global problems, ensuring they are well-equipped for careers in an interconnected professional landscape, as evidenced by its consistent ranking among top global universities for graduate employability in physics.