United Kingdom

University College London (UCL)

UCL offers an MSc. degree in Quantum Technologies, with a robust curriculum that features compulsory modules in Advanced Quantum Theory, Quantum Computation and Communication, Quantum Technologies, and an Individual Research Project, among other non-compulsory optional modules. Optional modules include Astronomical Spectroscopy, Materials and Energy Materials, Physics of the Earth, Physics of Advanced Materials, Theoretical Condensed Matter, Advanced Topics in Statistical Mechanics, and more. The program is offered under the UCL department of Physics and Astronomy, which is currently ranked 4th in the UK in the QS World University Rankings by Subject 2022 for Physics & Astronomy. The program is offered onsite at UCL’s London Bloomsbury Campus. For domestic students,
the yearly tuition spend comes to 14,100 GBP, with tuition for international students set at 35,000 GBP.

Duration: One Calendar Year

University of Sussex

The University of Sussex located in Brighton, UK offers a Quantum Technology MSc that is taken fully in person, but with an online version that is available. The modules and courses in the program include Quantum Optics and Quantum Information, MSc Project Research Skills (PGT), Practical Quantum Technologies, and an MSc Project P&A (PGT), among other optional courses.
Tuition is set at £11,275 per year for full-time domestic students and £22,975 per year for full-time international students.

Duration: One year full-time or two years part-time.

University of Bristol

The University of Bristol has been pioneering in this worldwide effort for more than 15 years with an approach that uses light and optoelectronic technologies to implement the required devices, circuits and systems. On this MSc Optoelectronic and Quantum Technologies programme you will gain a deep understanding of the design, fabrication and use of the next generation of integrated circuits, sub-systems and systems that combine optics, electronics and quantum engineering for applications in communications, computing, sensing, and healthcare. Students will be based in the Department of Electrical and Electronic Engineering, one of the leading research-intensive departments in the UK with strong links to the Smart Internet Lab at the University of Bristol, a hub for internet research addressing grand societal and industrial challenges.
Tuition is set at £16,400 per year for full-time domestic students and £30,500 per year for full-time international students.

Duration: One year full-time

University of Glascow

This Masters in Quantum Technology will provide training in the emerging area of quantum technologies, giving students advanced training in the relevant physics and engineering, while acquiring key skills in micro/nanofabrication. This MSc is underpinned by Glasgow leadership in the UK’s Quantum Technology programme. Modes of delivery of the MSc in Quantum Technology include lectures, tutorials, seminars, laboratory practical classes, small group supervisions and private study. In the final part of the programme, you will undertake a research project which will be supervised by a member of staff who works within the area of quantum technologies.
Tuition is set at £11,520 per year for full-time domestic students and £25,980 per year for full-time international students.

Duration: One year full-time

University of Strathclyde

This MSc. Quantum Technologies programme provides you with the skills to participate in the second quantum revolution with control of quantum features enabling novel functionalities for industrial products and advanced research. Semester 1 contains a transferable skills module providing you with the necessary study, IT and literature skills. A module in advanced theoretical quantum physics provides you with a solid base in quantum mechanical formalism. A module in Photonics provides the necessary experimental background. In semester 2 you will study experimental and theoretical quantum technologies and advanced quantum optics. Depending on your interest, you can decide to delve into atomic physics and related trapping technology, nanoscience and related characterization concepts or acquire additional practical skills in experimental laboratories. In the summer, you will undertake an open-ended research project.
Tuition is set at £9,600 per year for full-time domestic students and £23,200 per year for full-time international students.

Duration: 12 months full-time, 24 months part-time

University of Sheffield

This MSc(Res) Quantum Photonics and Nanomaterials programe teaches you about aspects of quantum physics that are paving the way for quantum technologies. You will study the fundamental properties of light and matter, and how they interact with each other. This includes learning how semiconductors are used in electronic and optoelectronic devices, ranging from nanophotonic circuits, and micro- and nano-sources of quantum light, to photovoltaic solar cells. By formulating complex equations that describe the theory, and seeing how it’s put into practice with experiments in the lab, you’ll develop expertise that can be applied to some of the biggest challenges in science and technology, from new semiconductor nanostructures and 2D materials to building an optical quantum computer. You’ll learn how your specialist knowledge can be applied in the computing, electronics and telecommunications industries.
Tuition is set at £11,950 per year for full-time domestic students and £25,600 per year for full-time international students.

Duration: 12 months full-time

The University of Edinburgh

This MSc Computers Science program offers you the opportunity to obtain specialist knowledge in the design, analysis, implementation, and use of computer systems ranging from the components of a single processor to computer networks as vast as the Internet. You can also pursue a more theoretical direction by choosing courses in areas such as:
Algorithms
Programming languages
Cryptography
Quantum Informatics
The programme provides a solid foundation in theoretical understanding and a wide variety of practical techniques applicable in many career settings.
Tuition is set at £17,100 per year for full-time domestic students and £38,500 per year for full-time international students.

Duration: 12 months full-time

University of Oxford

The MSc in Advanced Computer Science at Oxford has been designed to teach a range of advanced topics to graduates of computer science and other mathematical disciplines. Recognising this, this full-time, twelve-month MSc has been designed to teach the mathematical principles of specification, design and efficient implementation of both software and hardware. The MSc is designed to combine theory and practice. It teaches the advanced techniques and ideas that are being developed in application domains (such as machine learning, verification and computer security) and the rich and diverse theories that underpin them. These include models of computation and data,Quantum Computer Science, and mathematical analysis of programs and algorithms.
Tuition is set at £14,410 per year for full-time domestic students and £32,760 per year for full-time international students.

Duration: 12 months full-time

Cardiff University

The MPhil in Quantum technologies and engineering allows you to study for a PhD or MPhil in the area of quantum technologies and engineering will see you join the School as part of a successful team of researchers with a range of industrial partners and academic collaborators.
Tuition is set at £10,950 per year for full-time domestic students and £25,450 per year for full-time international students.

Duration: 12 months full-time

University of Warwick

Warwick offers two programs options with Quantum Technolgy track.
[1] MSc Computer Science
[2] Msc (by Research) in Physics
Both these courses are designed for technically-minded graduates with a background in computer science, mathematics, or the physical science, affiliated with the Theoretical Physics Group which works on problems in non-equilibrium biophysics, the dynamics of complex fluids, the electronic properties of materials, many body quantum phenomena and quantum information science.
Tuition for taught courses is set at £10,950 per year for full-time domestic students and £31,450 per year for full-time international students.
Tuition for research courses is set at £4,712 per year for full-time domestic students and £27,800 per year for full-time international students.

Duration: 12 months full-time

University of Southampton {[2024/2025]course subjected to approval}

This (MPhys) in Quantum Science and Technologies combine physics with the emerging field of quantum science and technologies. The technologies you’ll explore range from quantum computing and telecommunication to gravity sensors. Quantum systems are usually in the nanoscale and created, interrogated and studied using light. Therefore, you’ll cover quantum science and quantum optics, nanoscience, quantum information theory, and light and lasers. You’ll be taught by academics who are making advances in this area. Our academics are specialists in quantum computing and information, quantum interactions of light and matter, Bose-Einstein condensation, lasers and photonics and nano science.
Tuition is yet to be announced.

Duration: 12 months full-time

University Cambridge

Applications for Phd from graduate students to research centres in DAMTP are handled by the Board of Graduate Studies in the first instance, and then administered by the department. Applications for PhD places should thus be made to the Board of Graduate Studies in the first instance, specifying an interest in working at the CQIF in DAMTP. The CQIF includes four members of DAMTP Faculty, two affiliated members, and several senior researchers. {NOTE:}
Successful applicants are likely to have a first class undergraduate degree in mathematics, physics or computer science, and should ideally also have an M.Sc. or equivalent qualification. Candidates considering applying directly from an undergraduate degree are encouraged to consider applying first to take Cambridge’s one-year Masters-level course, the Master of Advanced Study in Mathematics. The course includes one or more lecture courses on aspects of quantum information and foundations, as well as courses on a wide variety of other topics in theoretical physics and pure and applied mathematics.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Surrey

MPhys Physics with Quantum Technologies courses teach you about the quantum world, opening the door to a wealth of opportunities in both industry and academia. Quantum technologies harness the unusual features of the quantum world to perform tasks that are difficult with conventional technologies alone. These courses cover the full spectrum of this exciting and rapidly developing field – from lasers and photonics to quantum information and quantum computing.
Tuition is yet to be announced.

Duration: 4 years full-time

University of Manchester

The Department of Physics and Astronomy at Manchester being one of the largest and most active departments of physics in the UK offers a MSc by Research Theoretical Physics. We have a long tradition of excellence in both teaching and research, and have interests in most areas of contemporary research. The Department has a strong presence in a number of Manchester-based centres for multidisciplinary research: The National Graphene Institute, the Photon Science Institute, the Manchester Centre for Non-Linear Dynamics, the Dalton Nuclear Institute, and the Mesoscience and Nanotechnology Centre. In addition, the Jodrell Bank Observatory in Cheshire is a part of the Department. Work on theoretical physics is concentrated in four main areas: complex systems, quantum descriptions of matter and its interactions with light, nuclear physics, and particle physics.
Tuition is set at £6,500 per year for full-time domestic students and £26,500 per year for full-time international students.

Duration: 12 months full-time

United States of America

University of California, Los Angeles

The UCLA Master of Quantum engineering program is a full-time course of study that includes an internship, a capstone presentation on the internship, and nine courses totaling 36 units. Courses in this program include Introduction to Quantum Computing, Quantum Programming, Lab Modules, Introduction to Quantum Information, Quantum Algorithms, Theory of Quantum Devices and other elective courses. The program will be undertaken in California, USA, with tuition set at $51,174.19.

Duration: One Year Full time

The University of Arizona

The University of Arizona’s Optical Sciences (MS) – Quantum Information Science and Engineering is offered in person in Arizona, USA, and features two unique tracks. 32 units are needed to complete the program with both thesis and non-thesis options, which are the Thesis track, which consists of a research project, a thesis, and a final defense; and the MS Report track, which consists of a project with a lesser scope, a report, and a final defense.

Core courses in the program include Quantum Mechanics, Foundations of Quantum Optics, Introduction to Quantum Information and Computation, and Quantum Nanophotonics. While several elective courses make up a huge part of the program’s offerings including Electromagnetic Waves, Solid State Optics, Probability and Statistics, Statistical Optics, Photonics, Optical Physics, and Lasers, From Photonics Innovation to Marketplace, Laser Beams and Resonators, Fundamentals of Information and Network Security, Q. Inf. Processing and Q. Error Correction, Error Correction, Detection and Estimation in Engineering Systems, Ethical Issues in Information (3), among others.

Tuition is calculated based on units and is currently set at $7,007.68 for 7+ units per year, and $16,978.68 for 9+ units per year for domestic and international students respectively.

Duration: Contact the University of Arizona.

Duke University

Duke University offers its Quantum Computing Concentration with either an MS pathway or an MEng pathway. Located in North Carolina, the program is onsite and is available to international and domestic applicants alike. The syllabus includes Introduction to Quantum Engineering, Quantum Information and Computation, Quantum Information Theory, Quantum Error Correction, Programming, Data Structures, and Algorithms in C++, Fundamentals of Computer Systems, and other notable software and hardware courses within Duke’s Electrical and Computer, Engineering (ECE) department.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Rhode Island

Students who have earned a bachelor’s degree in Physics or a closely related field and have a basic understanding of quantum mechanics are eligible for the M.S. in Quantum Computing offered by URI. To guarantee that our graduates have the necessary grounding for employment or further education in this rapidly developing subject, URI the university collaborates with industrial enterprises and institutes.

Although the University’s website offers minimal information about the program, intending applicants are encouraged to contact the University directly for more information.

University of Wisconsin–Madison

The University of Wisconsin-Madison offers an M.S. in Physics–Quantum Computing (MSPQC) program. Located in Wisconsin, USA, the program consists of an interesting selection of core courses and optional or elective courses that total 30 credits at the end of the program duration. Courses featured on the syllabus include Introduction to Quantum Computing, Introduction to Quantum Mechanics, Quantum Mechanics, Atomic and Quantum Physics, Introduction to Atomic Structure, Advanced Quantum Computing, Solid State Physics, Advanced Solid State Physics, Atomic and Quantum Physics, Quantum Computing Laboratory, and Independent Study.

Tuition is calculated per the number of credits in the program, with 8+ credits set at a tuition rate of $6,125.28 for domestic students, and $12,788.72 for International Students. The program is offered Onsite.

Duration: One Calendar Year

University of Southern California

The Master of Science in Quantum Information Science program requires a minimum of 28 graduate units with at least 20 units at the 500 level. A minimum grade point average of 3.0 must be earned on all course work applied toward the degree. This average must also be achieved on all 400-level and above course work attempted at USC beyond the bachelor’s degree. A maximum of 4 units of Directed Research (590 or 790) may be counted toward the degree. A maximum of 4 transfer units count as credit (CR) toward the master’s degree and are not computed in the grade point average.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Stony Brook University

The M.Sc. in Quantum Information Science and Technology degree will feature several new customized courses in QIST and also allow students to take a number of relevant courses that are already offered in Physics and other departments across our campus. It will also feature a Research component that may be satisified through research on-campus or at Brookhaven National Laboratory, or through a internship with an industrial partner. Prospective students should have an undergraduate degree in Science or Engineering but need not be Physics Majors.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Indiana University

Quantum Information Science (QIS) is an exciting new area of exciting research and emerging commerce that is at the heart of a what has become known as the Second Quantum Revolution. QIS will facilitate the development of new sensors with extraordinary sensitivity, new communication technologies and security protocols, enhanced optimization strategies, and, eventually, qualitatively new computer platforms capable of performing calculations that are impossible to execute on conventional digital computers. This degree program is designed to provide students from a wide variety of backgrounds with the knowledge and skills needed to join this new field.

To date many of the advances made in QIS have been made by people with extensive backgrounds in Quantum Mechanics through acquiring a PhD in Physics, Chemistry or similar fields. The future of the field will require people who combine a less in-depth knowledge of Quantum Mechanics with significant knowledge from one or more of the other fields that will be impacted by these emerging QIS technologies.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Syracuse University

Students interested in Quantum Information Science (QIS) will find excellent opportunities at Syracuse University. The heart of the field is quantum computing that uses multilevel quantum systems (qubits) instead of classical semiconductor bits. The impact could be revolutionary on subjects ranging from fundamental science (quantum gravity, black holes, neutron stars, molecular structure and dynamics) to current technologies (cryptography, data mining, supply chains, cybersecurity, and artificial intelligence). There are presently four professors working in the field, and there’s an educational partnership with QIS researchers working at the nearby Air Force Research Laboratory in Rome, New York. Their research includes both laboratory realizations of qubits and quantum computers as well as algorithms to exploit them for currently intractable calculations in many areas.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Buffalo

The Engineering Science – MS (Quantum Science and Nanotechnology) is an interdisciplinary program designed to provide students with cutting-edge training in the emerging area of quantum technologies in response to technological advances. This program is unique in that it provides advanced training in the related underlying physics while combining this knowledge to acquire new cutting edge innovative skills in engineering and information sciences.

Graduates of the program will be well prepared for careers in the rapidly emerging quantum technology industries which continue to play an increasingly important role in: quantum computing and communication; quantum sensing; the simulation of quantum systems; and advanced transistor concepts. The training obtained in this program will prepared graduate for positions necessary in the development of quantum technologies in industry, research institutions and government laboratories.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Washington

The Graduate Certificate in Quantum Information Science and Engineering is designed to meet a critical educational need to train the next generation of scientists and engineers with emphasis on the interdisciplinarity of Quantum Information Science and Engineering (QISE) field. The graduate certificate allows students in various domain disciplines (Physics, Chemistry, Electrical & Computer Engineering, Computer Science & Engineering, Materials Science & Engineering, Mechanical Engineering, etc.) to apply the fundamental training from their degree program to quantum information science and technologies. The QISE graduate certificate places a heavy emphasis on the project-based teamwork of students across multiple fields and assists in creating a common language between these fields to further collaboration and accelerate the realization of quantum-enabled technologies.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of New Mexico

They offer the PhD degree in Physics with a Concentration in Quantum Information Science (QIS). To earn the degree a student follows the same sequence of core courses as the standard PhD in Physics, but different elective requirements. It requires a minimum of 48 semester hours of graduate work exclusive of dissertation.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Massachusetts Boston

The Quantum Information Certificate program consists of four courses that form a self-consistent introduction to the notions, tools, and problems in quantum information science. All the mathematical tools beyond pre-Calculus necessary to understand quantum mechanics are introduced during the courses. The sequence of courses will be: Fundamentals of Quantum Physics, Quantum Computation, Physics and Information, and Quantum Science Applications. The last course will cover quantum simulation, give students a hands-on opportunity to use cloud-based quantum computers, and feature experimental demonstrations of quantum mechanics. Lab tours and discussions with local industrial partners will give students real-world experience with the burgeoning quantum industry in the Boston area, with an emphasis on quantum optics and superconducting qubits.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Stevens Institute of Technology

Here at MS.c Phyics program, you’ll establish general expertise in physics while honing critical thinking skills for multidisciplinary applications. You’ll have the opportunity to work alongside faculty conducting formative research in cutting-edge areas in fundamental physics as well as in applied physics like quantum systems. Your physics master’s degree will clear the path for a career in academia or a wide range of industries, such as defense, aerospace, government, education, health care, energy and IT. Recent Stevens physics master’s graduates have gone on to work for Palantir Technologies, Thorlabs and OFS Labs.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

San Jose State University

The Master of Science degree in Quantum Technology (MSQT) is designed to educate students in the dynamic and growing field of Quantum Information Science and Engineering (QISE). This new program brings together faculty from the Departments of Physics & Astronomy and Electrical Engineering to equip students with a broad set of QISE skills in a cross-disciplinary environment. The program targets students who have already obtained an undergraduate degree in a STEM field. It aims to expose them to more hands-on and specialized work in quantum technologies including quantum sensing, quantum computation, quantum communication, quantum hardware, and the corresponding electronic controls.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

George Mason University

In this MS program in QISE, students in physics, engineering, mathematics, chemistry, computing, and relevant areas are welcome to apply to 2-year program with industry/research internship or Training in systems engineering principles. No quantum prerequisites.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Dexel University

This Certificate in Quantum Technology and Quantum Information is designed for working professionals and will provide skills in areas of quantum technologies that can be applied to real-world problems. Students in the program will obtain a fundamental understanding of the current implementation platforms, as well as the operation and use of existing quantum computing hardware. Furthermore, students will acquire working knowledge of the relevant quantum information processing algorithms. In a broad sense, the certificate will prepare students for entering the quantum technology workforce and contributing to the development of new quantum technologies.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Germany

Doggendorf Institute of Technology

DIT offers you a Master’s degree in Quantum Computing. Building on your knowledge in computer science, physics or engineering, you will learn about the modern technology of quantum computing in this degree programme. no matter in which economic or scientific field, it is all about solving complex problems. In Deggendorf, you study quantum computing in English, which optimally prepares you for the professional world. The master’s programme is supported by partnerships with industry and peer institutions that guide you through the rapidly evolving technological advances of quantum systems.
Tuition is set at €72.00 student union fee per semester.

Duration: 3 semesters (1.5 years)

Technical University of Munich (TUM)

The Master of Science (M.Sc.) Quantum Science & Technology study program QST goes significantly beyond the standard teaching program of quantum mechanics as in modern application of quantum technologies (Quantum2.0), the concepts of superposition and entanglement are of central importance. Owing to the complexity of the field, the study program QST aims at students which will work at the forefront of quantum science and who will expand the existing research areas in natural sciences (e.g. physics and chemistry), mathematics and engineering (e.g. computer science and electrical engineering).
Tuition is set at €85.00 student union fee per semester.

Duration: 4 semesters (2.0 years)

University of Tübingen

The Master’s program in Advanced Quantum Physics at the University of Tübingen dives deeply into topics like atom-light interactions, quantum sensors, optical and microwave resonators, many-body quantum systems and hybrid systems of ultracold atoms and superconducting structures. As a student you will get acquainted with the theoretical concepts behind quantum technologies and you will apply them in a series of quantum lab courses. You will discuss state-of-the-art research results with your peers and professors. You can absolve even an industrial internship in a high-tech company within your studies. Finally, your master thesis will allow you to work on your own quantum science project, whether theoretical or experimental.
Tuition is set at €1500.00 student union fee per semester.

Duration: 4 semesters (2.0 years)

Leibniz University Hannover

The Quantum Engineering (Master of Science) programme primarily teaches students knowledge in all four pillars of quantum technologies: communication, simulation, sensors and computation. Once they have completed the programme, students will be able to use their technological expertise in individual specific fields of application to transfer quantum technology solutions from the basic research laboratory to practice. The degree programme is offered in cooperation with the Technische Universität Braunschweig. The imported teaching may require students to attend courses in Braunschweig in addition to their regular courses at Leibniz University in Hanover and a hybrid offer.
For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Duration: 4 semesters (2.0 years)

RWTH AAchcen University

The Physics Department of the RWTH Aachen University is offering a novel Master study-track on Quantum Technology, starting from the winter semester 2019/20. This study track has been developed in collaboration with the Faculty of Electrical Engineering and Information Technology and will include theoretical and experimental courses alike, and a new, dedicated lab course where to put theory into practice. Students will be also offered cutting-edge research projects and an industrial tie-up for internships. A brief introduction to the topic including about city of Aachen and RWTH followed by a concise teaching plan and research topics is given in the presentation - Quantum Technology. The study track is also one of the strategic measures of the Cluster of Excellence ML4Q in the field of teaching, and it greatly profit from the close collaborations with experts from Jülich Research Center, Cologne and Bonn Universities. The two-year (four semester) master study track Quantum Technology is jointly organized by the Department of Physics and Faculty of Electrical Engineering and Information Technology. The curriculum offered by the Masters program physics is given below, with courses in bold being mandatory. The first year consists of lectures, seminars and lab courses. The second year is dedicated to an individual research project.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Saarland

The interdisciplinary study program Master degree in Quantum Engineering combines fundamentals of physics and engineering sciences with the thematic focus on quantum technology. Particular importance is attached to the interdisciplinary systems approach. Quantum technologies enable new approaches to solutions based on the laws and phenomena of quantum physics, including in the areas of sensor and measurement technology, in communication and cryptography, and in computing technology. In particular, the program teaches the fundamentals needed to research and develop new system solutions based on these technologies. Graduates of the program will primarily work in research institutions as well as in research-oriented areas of industry, especially in high-tech areas in which quantum physical effects are transferred into application or key technologies are developed for this purpose.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

University of Siegen

The Master in Quantum Science is an international two-year degree program at the University of Siegen. It focuses on foundational and practical aspects of quantum science, ranging from basic research to applications and quantum devices. The program is interdisciplinary at the border between physics, mathematics, computer science, and electrical engineering. It is open for students with a BSc in any of these four fields.

For information on tuition and more on the program, intending applicants can contact the department directly via the course website.

Julius-Maximilians-University Wurzburg

The M.Sc. program Quantum Engineering is a two-year program with the first year focusing on a lecture-, seminar- and lab-course program to deepen and widen the knowledge of students based on their experience from B.Sc.- level studies. In the second year, students are working on a topical project in quantum engineering integrated in a faculty research team under the supervision of a professor or senior scientist, leading to a master thesis. The program is compatible with the Bologna process of the European Higher Education Area. The students will take courses in experimental and theoretical physics, an advanced seminar and an advanced lab course. There is a wide selection of elective courses including many courses on current research topics. These are given by active researchers in the respective fields to help students prepare for their own research. In this program students are advised to contact potential supervisors of their master thesis early for advice on which lectures are best suited for preparing them for their thesis topic of choice.
Tuition is NA.

Duration: 4 semesters (2.0 years)

Ulm University

The aim of MSc Quantum Enginnering programme is to provide a comprehensive education and hands-on research in quantum engineering and relative miniaturization methods, prepare students to design, realize and test quantum systems for quantum enabled sensing, computing and navigation and train the next generation of scientists in the interdisciplinary field of quantum technologies. Students will complete courses from an adaptation area at the beginning of the programme, the scope and content of which may depend on whether admission to the Master’s programme is based on a Bachelor in Physics or in Engineering. The adaptation area is designed to provide students from diverse backgrounds with the necessary skills to successfully complete the master’s degree. In addition to core interdisciplinary lectures in quantum engineering, students may choose specialisation courses from the vast offer of quantum physics and engineering modules available at our university. During the second year, students have the opportunity to carry out research at the academic level by completing an independent research project, or can choose to do an internship in an external institute or industry. Alternatively, students may apply for an exchange scholarship and spend the third semester abroad at a partner university. By completing the 6-months long Master’s Thesis, students will conclude the strongly research-oriented degree programme.
Tuition is set at 1500 Euro each semester - only non-EU students, with administrative fees of ca. 180 Euro each semester.

Duration: 4 semesters (2 years)

Canada

Coming Soon………..

Australia

RMIT University

The Master of Science (Applied Physics) gives you opportunities to develop specialist knowledge and honed research skills in your chosen area among the various project areas. This master degree may be undertaken in a project or thesis mode. You will also have access to our modern semiconductor clean rooms. Many of our research activities are conducted within the Theoretical Chemical and Quantum Physics Research Group. This masters degree will provide you with a foundation for further studies into a PhD and employment in senior leadership and management research-based positions in a variety of government, non-government and corporate organisations.
Tuition is set at AU$35,520 (2023 annual) with a Continuous (scholarship application closing dates apply)

Duration: 2 calender years

The University of Queensland

Studying Master of Quantum Technology at UQ will give you access to our high-performance fabrication and measurement facilities in optical, superconducting, opto-mechanical and ultra-cold atomic systems. You’ll develop a foundation in quantum physics theory and study advanced quantum technologies topics, such as high-precision sensing, quantum information, communication and computation, noise and error suppression, and quantum error correction. This program features three semester-long research projects that immerse you within leading quantum science research laboratories. You’ll have the opportunity to work with a variety of platforms, including superconducting devices, ultra-cold atoms, micro-mechanical systems and photonics. The Master of Quantum Technology also provides you with a pathway to PhD study in quantum science.
Tuition is set at AU$46,864 (2023 annual), this program offers a Master of Quantum Technology Scholarship awarded upto 2 per program year.

Duration: 1.5 calender years(semester 2)

Australian National University

This Master of Science in Quantum Technology program equips you with the required skills and knowledge of the scientific, technical, business and societal aspects of quantum technology to be highly competitive in the emerging quantum industries of the present day and of the future. Students who are admitted to the Master of Science in Quantum Technology of study can explore the option of undertaking a signficant research component. Please discuss this with the program convener before completion of the first 48 units of study at the Master level. Students have the option of applying to transfer to the Master of Science (Advanced) in Quantum Technology and undertaking a 24 unit research project by satisfying the eligibilty requirements.
Tuition is set at AU$49,330 (2023 annual), this program offers wide range of Scholarships all around the year.

Duration: 2 calender years

University of New South Wales

This Bachelor of Engineering (Honours) (Quantum Engineering) is a four-year, full-time degree offered by the School of Electrical Engineering and Telecommunications, you’ll learn how to work with a range of quantum systems, from high-frequency signals to very small electronic circuits. The programs concentrates on teaching about novel systems where the quantum phenomenon is the core aspect such as quantum computers, quantum sensors and quantum communications. You’ll gain practical experience by taking part in 60 days of industrial training throughout your degree to prepare you for a successful career in the growing sector of Quantum Engineering, anywhere in the world.
Tuition is set at AU$6,880 (annual), this program offers wide range of Scholarships all around the year.

Duration: 4 calender years

European Union

Coming Soon………..

Asian Continent

Coming Soon………..