Master of Social Work - Traditional
The traditional Master of Social Work (MSW) program at the University at Buffalo is des...
M.S. in Engineering Science - Quantum Science and Nanotechnology
Buffalo, New York
INTAKE: Jan & Aug
Program Overview
The M.S. in Engineering Science (Quantum Science and Nanotechnology) at UB is a 30-credit hour program, typically completed within 1.5 years of full-time study. It is a coursework-focused master's degree that aims to equip students with the skills necessary to become effective contributors to the quantum revolution. The program emphasizes a cross-cutting education, building on a solid foundation of instruction in quantum mechanics and solid-state electronics. Graduates are prepared for careers in various quantum technology industries, including quantum computing and communication, quantum sensing, and the simulation of quantum systems.
STEM Designated: Yes, the M.S. in Engineering Science (Quantum Science and Nanotechnology) program at the University at Buffalo is STEM-designated. This is a significant advantage for international students, as it allows for an Optional Practical Training (OPT) extension of 24 months beyond the initial 12 months, totaling up to 36 months of work authorization in the U.S. after graduation. This designation underscores the program's rigorous scientific and technical curriculum, which is essential for advancements in these complex fields.
Curriculum: The 30-credit curriculum for the M.S. in Engineering Science (Quantum Science and Nanotechnology) provides a comprehensive overview of quantum physics and related engineering applications. The program's core courses introduce students to foundational concepts of quantum computing and nanotechnology, while also discussing the role of nanotechnology for emerging scalable hardware realizations. Example courses include "Quantum Mechanics for Engineers," "Semiconductor Materials," "Solid-State Physics," "Solid-State Devices," and "Quantum Computing and Devices." The curriculum is carefully designed to ensure students develop a strong foundation and acquire the skills needed to solve complex problems in the industry.
Research Focus: The M.S. in Engineering Science (Quantum Science and Nanotechnology) at UB is deeply embedded in the active research environment of the School of Engineering and Applied Sciences. The program's research focus centers on providing advanced training in the underlying physics of quantum phenomena while combining this knowledge with cutting-edge engineering and information science skills. Faculty are involved in research related to quantum materials, quantum information science, quantum computation, quantum cryptography, quantum-enabled solar cells, and advanced transistor concepts. Students are exposed to these research areas through their coursework and the opportunity to engage in projects that contribute to the development of quantum technologies.
Industry Engagement: The M.S. in Engineering Science (Quantum Science and Nanotechnology) program at UB is designed to prepare graduates for direct entry into the rapidly emerging quantum technology industries. The program's curriculum is shaped by the needs of these burgeoning sectors, ensuring that students gain practical skills and knowledge highly valued by employers. Graduates are well-prepared for positions necessary in the development of quantum technologies in industry, research institutions, and government laboratories. The program actively fosters connections with the growing quantum ecosystem, emphasizing the commercialization and application of quantum information technologies.
Global Perspective: The M.S. in Engineering Science (Quantum Science and Nanotechnology) at UB inherently fosters a global perspective, as quantum science and nanotechnology are fields with profound global implications and international collaboration. Quantum computing, communication, and sensing are poised to drive innovation across global economies, from energy to medicine. The program addresses the need for continued engagement among international partners to ensure a vibrant and competitive market. As a major public research university, UB attracts a diverse international student body and faculty, enriching the learning environment with varied cultural viewpoints and different approaches to solving complex quantum and nanoscale challenges from around the world. This exposure prepares graduates to contribute to global scientific and technological advancements.
Location
Buffalo, New York
Score
IELTS 6.5
Tuition Fee
USD 28210
Postgraduate Entry Requirements
Academic Qualifications: Applicants for postgraduate programs typically require a minimum academic achievement of 70% or above in their bachelor's degree.
English Language Proficiency:
- IELTS: Overall band score of 6.5 or 7.0 with a minimum of 6.0 in each component.
- TOEFL: Overall score of 90 or higher.
- PTE: Overall score of 61 or higher.
- DET (Duolingo English Test): Minimum score of 120.
The University at Buffalo (UB) offers a variety of scholarships and financial aid opportunities specifically aimed at supporting international students who wish to pursue their studies in the United States. These scholarships are designed to reward academic excellence, leadership, and community involvement, helping to make education more affordable for talented students worldwide.
Merit-Based Scholarships: UB provides competitive merit scholarships to outstanding international undergraduate and graduate students. Awards such as the International Student Academic Excellence Scholarship recognize high-achieving students based on their academic records, standardized test scores, and extracurricular involvement.
Graduate Fellowships and Assistantships: Graduate international students can apply for teaching assistantships, research assistantships, and fellowships which offer tuition remission and stipends. These opportunities allow students to gain valuable teaching and research experience while offsetting the cost of their education.
Departmental Scholarships: Many academic departments at UB offer scholarships tailored to students in specific programs or fields of study. These awards may consider academic merit, research interests, or financial need.
External Scholarships: UB encourages international students to explore external scholarship options from private organizations, governments, and international foundations that support study in the U.S. The university’s International Student Services office provides guidance on identifying and applying for such funding sources.
Graduates with an M.S. in Engineering Science (Quantum Science and Nanotechnology) from UB are uniquely positioned for pioneering roles in the emerging quantum and nanotechnology sectors, as well as in advanced R&D.
Quantum Computing Researcher: Develop and apply quantum algorithms, design quantum processors, and research new paradigms for quantum computation in industry, academia, or government labs.
Quantum Engineer: Design, build, and test quantum devices and systems, including quantum computers, sensors, and communication networks.
Nanomaterials Scientist/Engineer: Research, develop, and characterize materials at the nanoscale for applications in electronics, energy, medicine, and other advanced technologies.
Quantum Information Scientist: Work on the theoretical and practical aspects of quantum information, including quantum cryptography, quantum error correction, and quantum communication protocols.
Semiconductor Device Engineer (Advanced/Nano-scale): Specialize in the design and fabrication of next-generation electronic devices utilizing nanoscale materials and quantum effects.
Quantum Sensing Engineer: Develop highly sensitive quantum sensors for applications in metrology, medical imaging, navigation, and fundamental scientific research.
Optics and Photonics Engineer (Quantum Applications): Design and develop optical systems and photonic devices for quantum communication, quantum computing interfaces, and quantum sensing.
Materials Characterization Specialist: Utilize advanced tools like scanning tunneling microscopy (STM) and atomic force microscopy (AFM) to analyze and understand materials at the nanoscale.
Research Scientist (Physics/Chemistry): Conduct fundamental research in quantum mechanics, solid-state physics, or nanotechnology, contributing to theoretical understanding and experimental breakthroughs.
Product Development Engineer (Quantum/Nano-tech): Translate cutting-edge quantum and nanotechnology research into marketable products and solutions for various industries.
