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Master's Programme in Engineering Physics
Curriculum 2024–2026
About the programme
Director of degree programme: Professor Mika Sillanpää
Degree: Master of Science (Technology)
Extent: 120 ECTS
Studies in engineering physics create a basis for the technological applications of physics and open doors for different careers in industry, science, and research. The study programme in engineering physics distinguishes itself from more traditional university physics by its direct engagement with concrete and practical questions in research and technology. This distinctive focus allows students to develop a profound understanding of physics and mathematics, enabling them to discover innovative solutions to present-day and future challenges. Graduates from the programme are associated to an enduring national brand, and typically work in a vastly broad spectrum of jobs ranging from fundamental research to global corporate leadership.
The focus areas in the programme range from experimental and theoretical materials physics to nanophysics and nanoscience, and to novel energy solutions.
In addition to learning advanced physics and mathematics, in the programme you will learn to think out from the box. This is what the Master's Programme in Engineering Physics is famous for. This will aid you finding the best ways to solve complicated problems in science and technology. In addition, seeing the big picture will make you able to quickly find simple solutions in everyday situations encountered in your career either at hands-on or at management level.
Concretely, graduates from the programme
- Are able to apply methods of physics, mathematics, and computer science in solving demanding problems in science and technology.
- Can see a technological or management situation in a wide perspective in order to find a comprehensive solution.
- Can work in industry both in engineering and management roles.
- Adopt a platform for post-graduate scientific studies.
- Are able to continuously develop their professional skills.
- Are able to communicate effectively on science and engineering.
Two majors with a different focus are offered in the Master's Programme in Engineering Physics:
Materials Physics and Quantum Technology
You can focus either in experimental physics or theoretical physics and modeling, with emphasis on technology applications or basic research. You can further specialize in nanomaterials, solid-state applications of quantum technology, or purely theoretical physics related to the most pressing questions in modern solid-state physics and quantum technology.
Content and structure
The Materials Physics and Quantum Technology major is offered as a long major, and as a compact major. The compact major forms the core content for the long major. The pertaining courses cover important topics for engineering physics, and methods from computational, theoretical, and experimental physics. The compact major also includes some choices for more detailed focusing on a specific subject.
The rest of the studies in the long major have a flexible structure, and provide the student with the possibility of focusing in physics, nanoscience, or designing a more cross-disciplinary content for the long major.
As per the study cooperation agreement on quantum technology studies in the Helsinki metropolitan area, MSc students in Engineering Physics with Materials Physics and Quantum Technology major are eligible for applying to courses in University of Helsinki. The course list and application instructions are given on page Planning your studies. These courses can replace optional or elective courses in the major. The courses are intended to complement the locally offered courses, and more than half of the credits in the MSc degree has to come from Aalto. Before applying for a study right, please check from your own programme whether the course credits fit in your degree.
Advanced Energy Technologies
This major addresses the most pressing questions faced by the society in the near future: how to combat climate change and pollution by finding alternative energy sources. These include e.g. advanced nuclear technologies, fusion, solar energy, and fuel cells.
Content and structure
The Advanced Energy Technologies major is offered as a long major and as a compact major. The compact major forms the core content for the long major. The pertaining courses cover the foundations for novel and clean energy sources, both from practical and computational perspectives. The compact major also includes options for focusing in a specific subject field.
The rest of the studies in the long major have a flexible structure and provide the student with the possibility of focusing either in fission, fusion, or renewable energy sources, or designing a more cross-disciplinary content for the long major.
* Compact major 40 ECTS. Long major 65 ECTS.
** Contains compulsory language studies
Major 40–65 ECTS
Code: SCI3107
Extent: 40 ECTS or 65 ECTS
Professor in charge: Mika Sillanpää
Objectives
The studies offered in the major follow topical research directions at the Department of Applied Physics, such as experimental and theoretical or computational materials physics and nanophysics, and quantum technology.
Materials is one of the focus areas of Aalto. In materials physics, one of the aims is to discover novel materials and structures and to find and apply new phenomena that often occur at a nanometer length scale. This covers studies based on electronic structure of solid matter, as well as statistical physics, nanomagnetism, nano-optics, and soft matter physics.
Quantum technology uses the principles of quantum mechanics to design physical systems with unforeseen functionalities that are impossible to attain in classical information systems or sensors. Quantum technology is experiencing a rapid growth worldwide. Plenty of start-up companies are emerging in order to bring the findings out from research laboratories into the market. Time is right to step into the field. The studies on quantum technology offered in the major include advanced quantum mechanics, statistical physics, nanoelectronics, and quantum computing architectures.
The long major offers a chance of profiling the studies by a specialization in a topic. Examples of this are in-depth studies in experimental physics of materials or quantum technology, or theoretical/computational studies on similar topics. The course contents is flexible, and extends beyond the courses organized by the Department of Applied Physics. For students who are clearly aiming at jobs in the private sector, or otherwise interested in broadening their scope beyond core physics, it is suggested to include courses offered elsewhere at Aalto: Department of Mathematics and Systems Analysis, Department of Computer Science, School of Electrical Engineering, and School of Chemical Engineering.
If the student wishes to include other courses to the long major than the courses listed, the student may seek advice on the course selection with the professor in charge of the major or with his/her academic advisor.
In the case of a long major (65 ECTS) the student is recommended to take 40 ECTS of the major courses and 20 ECTS of others during the first year. The special assignment is often completed during the summer between the first and second year in the programme.
Code | Course name | ECTS | Period/year |
---|---|---|---|
PHYS-E0411 | Advanced Physics Laboratory | 5 | III-V/1 |
PHYS-E0412 | Computational Physics | 5 | III-V/1 |
Select one course from the selection below |
|||
PHYS-E0441 | Physics Special Assignment | 10 | varies/2 |
PHYS-E0442 | Company internship | 10 | varies |
Choose 20-42 ECTSChoose 20 credits if you take compact major and 20-42 credits if you take long major. |
|||
PHYS-E0410 | Quantum Mechanics 2 | 5 | I-II/1 or 2 |
PHYS-E0415 | Statistical Mechanics | 5 | I-II/1 or 2 |
PHYS-E0434 | Advanced Quantum Materials | 5 | IV-V/1 |
PHYS-E0422 | Soft Condensed Matter Physics | 5 | III-IV/1 |
PHYS-E0431 | Quantum Many-Body Physics 1 | 7 | III-IV/1 |
PHYS-E0435 | Optical Physics | 5 | I-II/1 or 2 |
MS-Exxxx | One mathematics, applied mathematics or systems analysis course* | 5 | varies/1 |
PHYS-E0565 | Programming course on Monte Carlo particle transport simulations | 5 | I-II/1 |
Select 0-25 ECTS from the selection belowTo complete a long major (65 ECTS), the student selects elective courses on top of the compact major (40 ECTS). All the courses listed in the tables above and below are acceptable. |
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PHYS-E0441 | Physics Special Assignment | 10 | varies/2 |
PHYS-E0432 | Quantum Many-Body Physics 2 | 8 | I-II/2 |
PHYS-E0423 | Surface Physics | 5 | III-IV1/1 |
PHYS-E0430 | Magnetism and Spintronics | 5 | I-II2/1 or 2 |
PHYS-E0436 | Modern Optics | 5 | IV-V2/1 |
PHYS-E0437 | Laser Physics | 5 | IV-V1/1 |
PHYS-E0555 | Low Temperature Physics and Cryogenics | 5 | III-IV1/2 |
PHYS-E0556 | Superconductivity | 5 | III-V2/2 |
PHYS-E0554 | Nanoelectronics | 5 | I-II2/2 |
PHYS-E6575 | Experimental Methods in Physics | 5 | I-II/1 or 2 |
PHYS-E0544 | Individual Studies in Physics3 | 1-10 | varies/1 or 2 |
PHYS-E0525 | Microscopy of Nanomaterials | 5 | III - IV/1 |
PHYS-E0526 | Microscopy of Nanomaterials, laboratory course | 5 | IV - V/1 |
PHYS-E0510 | Advanced Computational Methods in Physics | 5 | I-II/2 |
PHYS-E0549 | Introduction to Machine Learning for Materials Science | 3 | I/2 |
PHYS-E0550 | Project in Machine Learning for Materials Science | 3 | II/2 |
PHYS-E0565 | Programming course on Monte Carlo particle transport simulations | 5 | I-II/1 or 2 |
PHYS-E6574 | Radiation damage in materials | 5 | IV-V/1 or 2 |
PHYS-E0527 | Applied X-ray Scattering Techniques in Materials Science | 5 | I-II/2 |
PHYS-E0442 | Company internship ** | 10 | varies/1 or 2 |
CS-E4715 | Supervised Machine Learning | 5 | I-II/1 or 2 |
CS-E4890 | Deep Learning | 5 | IV-V/1 |
CS-E4680 | Quantum Machine Learning | 5 | I/2 |
CS-C3260 | Practical Quantum Computing | 5 | I-II/1 or 2 |
CS-E5755 | Nonlinear dynamics and chaos | 5 | III-IV/1 or 2 |
ELEC-E3140 | Semiconductor Physics | 5 | I-II/1 or 2 |
ELEC-D9420 | Basics of RF Technology | 5 | I-II/1 |
MS-Exxxx | One mathematics, applied mathematics or systems analysis course* | 5 | varies/1 |
CHEM-E4215 | Functional Inorganic Materials | 5 | II/1 or 2 |
CHEM-E4210 | Molecular Thermodynamics D | 5 | II/1 or 2 |
CHEM- E4126 | Atomic-level Modelling Using Computational Chemistry Methods D | 5 | III/1 or 2 |
CHEM- E4118 | AI for Chemistry and Materials Science | 5 | IV-V/1 or 2 |
CHEM-E5170 | Surfaces and Films | 5 | I-II/1 or 2 |
NBE-E4100 | Molecular Biophysics | 5 | III-V/1 |
* The mathematics courses on the MSc level are: MS-E1651 Numerical matrix computations, MS-E1652 Computational methods for differential equations, MS-E1653 Finite element method, MS-E1654 Computational inverse problems, MS-E2121 Linear Optimization, MS-E2122 Nonlinear optimization, MS-E1600 Probability theory, MS-E1461 Hilbert spaces
** Unless included in the core content.
1 in even years
2 in odd years
3 The contents and requirements for the individual studies need to be agreed with a professor.
>> Suggestions for optional courses for sample study paths
>> Studies in quantum technology offered by University of Helsinki
Code: SCI3106
Extent: 40 ECTS or 65 ECTS
Professor in charge: Andrea Sand
Objectives
The M.Sc. Major in Advanced Energy Technologies deals with clean energy solutions, with high relevance to present grand challenges such as climate change and green economy. The major is supported by the high-level research pursued in this field at the Department of Applied Physics. The major provides a solid analytical competence to deal with a range of energy-related issues such as energy materials, energy systems, fundamental energy science, nuclear reactors, radiation safety, fusion, or renewable energy technologies such as solar energy, wind power or fuel cells. The major is defined through a strong multi-disciplinary thinking with solid physical sciences in its core.
The major contains both theoretical and applied science studies. The major is flexible to allow research intensive or more practice orientated foci. Courses from outside the PHYS-field are included to broaden the skill basis of the students.
The major offers career paths both for those interested in pursuing academic research and for those interested in industries and businesses. The clean energy field is one of the fastest growing fields with global outreach offering interesting and motivating jobs from technology development, analytics to management, among others in Finland and internationally. The major is also one of the main entries to nuclear engineering in which the Department of Applied Physics has a key national role to educate nuclear engineering experts. The Department of Applied Physics is also the key national organisation in European Fusion Energy Research, closely related to the ITER fusion project. The job prospects in energy industries are excellent.
The long major offers a chance of profiling the studies by a specialization in a topic, not just in certain subject areas, but also towards different career paths. Examples of topical fields include in-depth studies in nuclear engineering, fusion technology, or new and renewable energy sources, or a mix of these. The course portfolio is flexible and extends beyond the courses organized by the Department of Applied Physics. Further courses relevant to this major can be found in the course listings of the Aalto Nuclear Safety Minor and Multidisciplinary Energy Studies Minor. In case the student wishes to include other courses to the long major, the student may seek advice on the course selection with the professor in charge of the major or with his/her teacher tutor.
In the case of a long major (65 ECTS) the student is recommended to take 40 ECTS of the major courses and 20 ECTS of others during the first year. The special assignment or company internship is often completed during the summer between the first and second year in the programme.
Code | Course name | ECTS | Period/year |
---|---|---|---|
PHYS-E0411 | Advanced Physics Laboratory | 5 | III-V/1 |
PHYS-E0412 | Computational Physics | 5 | III-V/1 |
Select one course from the selection below |
|||
PHYS-E0441 | Physics Special Assignment | 10 | varies/2 |
PHYS-E0442 | Company Internship | 10 | varies/2 |
TU-E5060 | Energy Linkage5 | 10 | III-V (a project course available through an application process) |
Choose 20-30 ECTSChoose 20 credits if you take compact major and 20-30 credits if you take long major. |
|||
PHYS-E0460 | Introduction to Reactor Physics | 5 | I-II/1 |
PHYS-E0461 | Introduction to Plasma Physics for Fusion and Space Applications | 5 | I-II/1 or 2 |
PHYS-E0463 | Fusion Energy Technology | 5 | III-IV/1 or 2 |
1 course from Materials |
|||
PHYS-E0434 | Advanced Quantum Materials | 5 | IV-V |
ELEC-E3140 | Semiconductor Physics | 5 | IV-V or I-II/1 |
1 course from the following list* |
|||
MS-E2148 | Dynamic Optimization | 5 | III/1 or 2 |
MS-E2135 | Decision Analysis | 5 | I-II/1 or 2 |
MS-E2121 | Linear Optimization | 5 | III-IV/1 or 2 |
MS-E2122 | Nonlinear Optimization | 5 | I-II/1 or 2 |
MS-E2117 | Riskianalyysi4 | 5 | III-IV/1 or 2 |
1 course from the following list** |
|||
AAE-E3006 | Energy Markets | 5 | I/1 or 2 |
AAE-E3002 | Power Process Simulation | 5 | IV-V/1 or 2 |
AAE-E3007 | Process Integration and Energy Optimization | 5 | II/1 or 2 |
AAE-E3070 | Electrical Energy Storage Systems | 5 | III/1 or 2 |
Select 0-25 ECTS from the selection below or aboveTo complete a long major (65 ECTS), the student selects elective courses on top of the compact major (40 ECTS). All the courses listed in the tables above and below are acceptable. |
|||
General coursesSelect 0-1 courses from the selection below |
|||
PHYS-E0441 | Physics Special Assignment | 10 | varies/2 |
PHYS-E0442 | Company Internship*** | 10 | varies/2 |
Courses in Nuclear Science and Technology |
|||
PHYS-E0562 | Nuclear Engineering, advanced course | 5 | IV-V/1 or 2 |
PHYS- E0467 | Experimental Reactor Physics | 5 | III-V/1 or 2 |
PHYS-E0564 | Nuclear competence portfolio | 1 | varies/2 |
PHYS-E0565 | Programming course on Monte Carlo particle transport simulations | 5 | I-II/2 |
PHYS-E6574 | Radiation damage in materials | 5 | I-II/1 or 2 |
PHYS-C0360 | Säteilyfysiikka ja -turvallisuus | 5 | I-II/1 or 2 |
PHYS-C6360 | Johdatus ydinenergiatekniikkaan | 5 | III-IV/1 or 2 |
Through flexible study right (JOO) at LUT University |
|||
BH30A1900 | Thermal Hydraulics of Nuclear Power Plants | ||
BH30A2000 | Modelling of Thermal Hydraulics of Nuclear Power Plants | ||
BH30A2200 | Experimental Nuclear Thermal Hydraulics | ||
Courses in New and Renewable Energy Technologies |
|||
PHYS-C1380 | Multi-disciplinary energy perspectives | 5 | III-IV /1 or 2 |
AAE-E1000 | Introduction to Advanced Energy Solutions | 5 | I-II/1 or 2 |
AAE-E3090 | Renewable Energy Engineering | 5 | III-IV/1 or 2 |
PHYS-E6570 | Solar Energy Engineering | 5 | III-IV2/1 or 2 |
PHYS-E6571 | Fuel Cells and Hydrogen Technology | 5 | III-IV1/1 or 2 |
AAE-E3095 | Wind Power Engineering and Development | 5 | I-II/1 or 2 |
PHYS-E0544 | Individual Studies in Physics3 | 3–10 | varies/1 or 2 |
* If you want to include some other course from System Analysis, Applied Mathematics or Mathematics, please consult with the professor in charge.
** If you want to include some other course from Energy Markets, Energy Economics or similar, please consult with the professor in charge.
*** Unless included in the core content.
1 in odd years
2 in even years
3 The contents and requirements for the individual studies need to be agreed with the professor in charge.
4 Lectures are given in Finnish.
5 Energy Linkage is a new project course organized in collaboration with the Department of Industrial Engineering and Management. If necessary, you may replace it with other entrepreneurship- or business-related project course approved by the professor in charge. For example, TU-C2080 + TU-E4100, or TU-C2080 + TU-E4040 + TU-E4060.
Internationally, students can take courses available through the European Nuclear Education Network ENEN (http://www.enen.eu). An additional benefit provided by ENEN is the European Master of Science in Nuclear Engineering Certification EMSNE (requires a 300 ECTS-MSc-level degree where 60 ECTS are in nuclear science and technology, preferably engineering, including a MSc thesis project in the nuclear field, and 20 ECTS need to be earned in a country other than that of the home university).
Master's theses 30 ECTS
Students are required to complete a master's thesis, which is a research assignment with a workload corresponding to 30 credits. The thesis is written on a topic usually related to the student's major, or in some special cases to the minor, and agreed upon between the student and a professor who specializes in the topic of the thesis. The supervisor of the thesis must be a professor in the University or for special reasons, the thesis supervisor may also be a university lecturer, or senior university lecturer of the school, whereas the thesis advisor(s) must have at least a master’s degree.
Master’s thesis work includes a seminar presentation or equivalent presentation. The student is also required to write a maturity essay related to the master’s thesis.
The master’s thesis is a public document and cannot be concealed.
For more information about the master's thesis process, please see MyCourses >>
Minor 20–25 ECTS
All students in the Master’s Programme in Engineering Physics may have a minor as part of their studies. You can choose to complete a minor subject instead of completing a more extended major. A minor can also be completed as part of the elective studies.
You can choose a minor from those offered by Aalto University, other Finnish universities or universities abroad. You are advised to discuss the matter with the professor in charge or other member of faculty. The minor is confirmed in the Personal Study Plan.
More information on Aalto University’s minor subjects:
Elective studies 25–30 ECTS
Students choose 25–30 ECTS of elective studies. As elective studies, students can complete a minor and/or take individual courses from other programmes at Aalto University or other Finnish universities. The elective studies can also contain a minor. Students can also participate in an international student exchange programme or do a practical training in Finland or abroad (max. 10 ECTS). If the course JOIN-A0003 Contributing in Community (3 ECTS) is included in the Master’s degree, only 7 ECTS of practical training can be accepted in the degree.
Elective studies must be university level studies that fulfill the degree requirements and, in general, studies that are offered as degree studies at the university in question. Universities also offer courses that are targeted for a larger audience. The suitability of these studies is evaluated taking into consideration the learning outcomes of the degree that the courses are planned to be included in. Elective studies may not overlap with student's other studies. For this reason, the programme may restrict the choices in elective studies.
Please note that PHYS-E0442 Company internship and SCI.trai Training are mutually exclusive. If a student chooses to do PHYS-E0442 Company internship to the major, practical training cannot be included in the elective studies.
For more information on internationalisation, Aalto University’s minor subjects or practical training:
If you have compulsory language studies in your master's degree, they are included in the elective studies.
- If you have completed your bachelor's degree in Finland (in Aalto or in another higher education institute), you have fulfilled the compulsory language requirements in the respective degree or received the exemption. You do not need to complete language studies in the master's degree.
- If your language of education is Finnish or Swedish and you have completed your bachelor’s degree outside of Finland, you must
- demonstrate proficiency in national languages by writing the maturity test in your language of education (Finnish or Swedish) and complete the language proficiency tests (2 ECTS) in the other national language. Read more about the language of education here. You may also apply for an exemption of demonstrating proficiency in national languages.
- complete 3 ECTS in one foreign language (including both oral (o) and written (w) proficiency).
- If you have completed your bachelor’s degree outside of Finland, you are required to complete only 3 ECTS in one foreign language (including both oral (o) and written (w) proficiency). Students, whose language of education is not Finnish or Swedish, may alternatively complete an elementary course in Finnish or in Swedish (3 ECTS). The courses in national languages can be at any level on CEFR scale.
Language studies are included in students’ elective studies and are agreed in the personal study plan (HOPS). Language center offers the language studies.
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