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M.S.E. in Electrical Engineering - Physical Electronics and Photonics

Phoenix, Arizona

 

INTAKE: Jan & Aug

Program Overview

The M.S.E. in Electrical Engineering - Physical Electronics and Photonics program focuses on the study and application of physical electronics, semiconductor devices, and photonics. Students in this program gain a deep understanding of the fundamental principles underlying electronic and optical phenomena, enabling them to design and develop advanced technologies in areas such as optoelectronics, nanophotonics, and semiconductor devices.

STEM Designation: The M.S.E. in Electrical Engineering - Physical Electronics and Photonics program holds a STEM designation.

Curriculum:

  1. Solid State Electronics: The program offers comprehensive coursework covering the principles of solid-state electronics. Students learn about semiconductor physics, quantum mechanics, band theory, and device fabrication techniques. They gain a strong foundation in understanding the behavior and characteristics of semiconductor materials and devices.

  2. Photonics and Optoelectronics: Courses in photonics and optoelectronics explore the principles and applications of light-based technologies. Students study topics such as optical waveguides, lasers, photodetectors, and fiber optics. They learn how to design and analyze photonic devices and systems for communication, sensing, and imaging applications.

  3. Nanophotonics and Nanofabrication: This coursework focuses on the design and fabrication of nanoscale photonic devices and structures. Students gain insights into nanofabrication techniques, such as electron beam lithography and nanoscale material deposition, and learn to engineer devices with unique optical properties and functionalities.

  4. Semiconductor Device Modeling and Simulation: The program includes courses that emphasize the use of computational tools and simulation techniques for modeling and analyzing semiconductor devices. Students learn how to simulate the behavior of electronic and photonic devices, optimize their performance, and evaluate their reliability.

  5. Elective Specializations: The curriculum offers a range of elective courses that allow students to specialize in specific areas such as semiconductor device physics, integrated optics, nanomaterials for photonics, or advanced photonic circuit design. Students can tailor their coursework to align with their interests and career goals.

Pollster Education

Location

Phoenix, Arizona

Pollster Education

Score

IELTS : 7

Pollster Education

Tuition Fee

USD 35280

The university has specific entry requirements for international students applying to postgraduate programs

  1. Academic Requirements:

    • For postgraduate programs at ASU, international students should have a minimum undergraduate GPA of 3.0 on a 4.0 scale or equivalent. This is typically equivalent to 65% and above.
       

  2. English Language Proficiency:

    • For most postgraduate programs, a minimum overall IELTS score of 7 is required, with no band score less than 6.5. 
    • The minimum TOEFL iBT (internet-based test) score required is 90.
    • PTE (Pearson Test of English) with a minimum score of 68
    • DET (Duolingo English Test) with a minimum score of 125.
       

  3. Graduate Record Examination (GRE) 

    • The typical range for GRE scores accepted by ASU is 305.

The University of Arizona State University (ASU) is a renowned public research university located in the United States. 

  1. Merit-based Scholarships: ASU offers a range of merit-based scholarships to international students based on their academic achievements. These scholarships recognize outstanding academic performance, leadership potential, and extracurricular involvement. Examples of merit-based scholarships include the New American University Scholarship, President's Scholarship, and Provost's Scholarship.

  2. International Excellence Awards: ASU provides International Excellence Awards to exceptionally talented international students. These awards are highly competitive and are based on criteria such as academic achievements, contributions to the community, and potential for future success. The International Excellence Awards are available at both undergraduate and graduate levels.

  3. Financial Need-based Scholarships: ASU also offers scholarships to international students based on their financial need. These scholarships aim to provide financial assistance to deserving students who may require additional support to pursue their education. Students are required to demonstrate their financial need through appropriate documentation.

  4. Departmental Scholarships: Many departments and colleges within ASU offer scholarships specific to their academic disciplines. These scholarships are designed to support students pursuing studies in particular fields of study. Students should inquire directly with their respective departments or colleges to explore scholarship opportunities related to their area of interest.

  5. External Scholarships: ASU encourages international students to explore external scholarship opportunities from government agencies, foundations, corporations, and other organizations. The university provides resources and guidance to assist students in identifying and applying for external scholarships that may be available to them.

It's important to note that scholarship availability, eligibility criteria, and application processes may vary. Students should review the specific requirements and deadlines associated with each scholarship opportunity and prepare their applications accordingly.

Graduates of the M.S.E. in Electrical Engineering - Physical Electronics and Photonics program have diverse career opportunities in industries at the forefront of electronic and photonic technologies. 

  1. Research and Development Engineer: Graduates can pursue research and development positions in industries focused on semiconductor devices, optoelectronics, and photonics. They can contribute to the advancement of cutting-edge technologies and the development of next-generation devices.

  2. Photonics Engineer: Graduates can work in industries specializing in photonics applications, such as telecommunications, biomedical imaging, or optical sensing. They can design and optimize photonic devices, develop optical communication systems, or contribute to advancements in imaging and sensing technologies.

  3. Semiconductor Industry: Graduates can find opportunities in the semiconductor industry, working on the design, characterization, and fabrication of advanced semiconductor devices. They can contribute to the development of high-performance electronic and photonic components.

  4. Academia and Research Institutes: Graduates can pursue academic careers or research positions in universities, government research laboratories, or private research institutes. They can engage in cutting-edge research in physical electronics, semiconductor devices, and photonics, pushing the boundaries of knowledge in the field.

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