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Masters Degrees (Electromagnetism)

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OUTLINE OF THE PROGRAM. The proposed master program aims at training students in fundamental, both theoretical and experimental, physics with applications in photonics, nanotechnology, and quantum technologies. Read more

OUTLINE OF THE PROGRAM

The proposed master program aims at training students in fundamental, both theoretical and experimental, physics with applications in photonics, nanotechnology, and quantum technologies. This combination, innovative at the level of a master program, is well aligned with priority investments in research at the European and international level, with thematic areas of growing demand for highly trained students, able to embark in a doctoral programme. This two-year master programme, fully taught in English for international students, is part of the Graduate School of Sciences of the University Bourgogne Franche-Comté (UBFC). It consists in both lessons and research project (3 month during the first year) / internship (5 months during the second year). This training program will be based on the internationally highly recognised research activities of the underlying laboratories ICB, Dijon and FEMTO-ST, Besançon.

OUR MASTER PROGRAM

This two-year master programme, fully taught in English for international students, combines macroscopic with nano- and quantum-scale topics. The programme aims at developing and improving students’ skills in fundamental optical physics, optical fibre communications, optoelectronics, laser technologies, ultrafast femtosecond optics, quantum information science, nanophotonics, nano-microscopy and nano-biosciences. This combination, innovative at the level of a master program, is well aligned with priority investments in research at the European and international level, and with thematic areas of growing demand for highly trained students.

The master programme is part of the Graduate School of Sciences of the University Bourgogne Franche-Comté (UBFC), Engineering and Innovation through Physical Sciences and High-technologies (EIPHI), which also includes a doctoral programme in the same topics.

Almost half of the programme is devoted to research project (3 month during the first year) & internship (5 months during the second year) in an international research team, leading to a master thesis aiming at the standards of a research article. This training program will be based on the internationally highly recognised research activities of the underlying laboratories ICB, Dijon and FEMTO-ST, Besançon, both having high international visibility in photonics, quantum technologies, nanotechnology and Engineering Sciences with researchers of high reputation.

TEACHING

Teaching consists of lectures, seminars by international researchers (both from the ICB & FEMTO-ST laboratories and from international partner universities), class tutorials, practical training & research work in laboratory, soft skills by professional coaches, technology and entrepreneurial courses by industrial partners, and French culture and language.

FUTURE CAREER PROSPECTS

Photonics is a very dynamic industrial sector in Europe and holds the potential for huge market growth. It has a substantial leverage effect on the European economy and workforce: 20-30% of the economy and 10% of the workforce depend on photonics, directly impacting around 30 million jobs. The master program offers intensive educational activities based on research activities of photonics, including nanophotonics and quantum technologies. It focuses on fundamental & applied research mainly targetting PhD programs, which will lead to recruitment in academia or in industry. A need of master degree students in the field of photonics & nanotechnologies, including specialties in quantum technologies boosted by the European flagship in Quantum Technologies (launched in 2018), able to embark on a PhD program both in academia & industry will strongly increase in a near future.

The master's Alumni Office helps alumni keep in touch with each other and organises alumni events.

LIFE IN DIJON, CAPITAL CITY OF BURGUNDY (FRANCE)

The two-year master program takes place at the University of Burgundy-Franche Comté, located in the scenic cities of Dijon & Besançon. The former capital city of the Duchy of Burgundy, Dijon is a medium-size French city, where you can enjoy a vibrant and active cultural life, as well as quick getaways to the countryside and the world famous neighbouring vineyards of the so-called “Golden coast” (city center, climates of the Burgundy vineyard, and gastronomy listed as world heritage sites in Dijon by Unesco). Life in Dijon is very affordable and accommodation easily accessible. The city is well-equipped with modern tramway and bus lines, making commuting between any place in Dijon and the University easy and convenient. Dijon is also host of several top-level professional sports teams (football, basketball, handball, rugby…), while also offering a large diversity of sports facilities.

STUDENT PROFILE

Students eligible to the master program PPN must have obtained a degree equivalent to or higher than a Bachelor of Science. Background knowledge in general physics, optics, electromagnetism and quantum physics is mandatory. Candidates must have very good academic qualifications and a very good practice of English.

GRANTS

Many scholarships will be awarded each year to high quality foreign students.

APPLICATIONS

During the first year, students have to pass the examinations associated with the Master 1 (60 ECTS credits) in order to proceed to the second year, Master 2 (60 ECTS), including research project and master thesis (33 ECTS).

For further information about how to apply, please directly contact the head of the master program, Professor Stéphane Guérin () and visit the webpage (http://www.ubfc.fr/formationen/).

Please also visit our dedicated webpage (http://blog.u-bourgogne.fr/master-ppn/).



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This programme takes a multi-disciplinary approach to sustainable solutions for future energy needs, with an in-depth knowledge of the new emerging alternative technologies. Read more
This programme takes a multi-disciplinary approach to sustainable solutions for future energy needs, with an in-depth knowledge of the new emerging alternative technologies. It will prepare you for immediate contribution to the renewable energy sector, entering public, environmental, industry and commercial industries.

Why Renewable Energy and Environmental Modelling at Dundee?

Climate change is possibly the most significant threat that humanity has ever faced. A new generation of scientists, engineers and policy-makers will need to be equipped with skills to enable them to make informed decisions on all aspects of this important and rapidly developing subject.

Our Masters degree in Renewable Energy and Environmental Modelling is designed to produce graduates with a broad and balanced skills base.

We provide the opportunity for you to go on field trips and external conferences as a part of your coursework, and you will have the option of undertaking either an industry-based or research-related project.

What's great about this course at Dundee?

The Dundee MSc is intended to interact with the renewables industry on many levels, enabling frequent networking opportunities during the year. The conference-style modules also allow delegates from industry to attend and enhance their skills in an informal and friendly setting. Graduates from this degree will be able to make an immediate contribution to the renewable energy sector.

Dundee University Centre for Renewable Energy (DUCRE)

DUCRE brings together a wide range of scientists with strong interests in renewable energy and evironmental issues. Staff and students in the Centre are engaged in a wide range of diverse renewable energy and environmental research. Projects range from electric vehicle technologies, to wind, solar, and hydro technologies, and from energy policy issues to Third World environmental development analysis.

Who should study this course?

The MSc in Renewable Energy and Environmental Modelling suits students and professionals from diverse backgrounds, including scientists, engineers, environmentalists, and policy-makers.

The programme has been designed to appeal to graduates with first degrees in the physical sciences, engineering, environmental science and related subjects. However, all applications will be assessed on their merits, regardless of background, and any relevant experience will also be taken into consideration.

The start date is September each year, and lasts for 12 months.

How you will be taught

This course utilizes conference-style teaching - delivered in one week intensive bursts.

The taught element will be delivered using a lively mix of lectures, seminars, peer-based problem-solving, practical sessions and site visits.

What you will study

Modules cover environmental physics, law and policy, renewable energy technologies, environmental monitoring, and the hydrogen economy.

You will study/take part in:

Foundation in renewable energy
Energy regulation law and security of supply
Hydrogen economy (incorporating fuel cells)
Physical concepts: A primer in energy, electromagnetism & electronic materials
Renewables technologies: In depth investigation of existing & emerging technologies, supply & demand issues, conservation & architectural issues
Environmental modelling: hydrology, carbon cycling, wind, wave & solar modelling
Field trips
Project

How you will be assessed

Students are assessed on written and practical work, formal presentations and a project dissertation.

Careers

Graduates from this programme will be able to make an immediate contribution to the renewable energy sector and make informed decisions that will have an impact on the development of national programmes to meet future targets.

Each graduate will have a firm grasp of the predominant and emerging technologies, and will be able to set these in context using a range of environmental monitoring techniques.

"The MSc provided a good base to research renewable technologies and understand how they fit into the energy mix and government policy. After graduation, I am now employed as Chief Technical Officer at Scottish Renewables."
David Cameron, class of 2008

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The program aims at preparing professionals able to design, develop, and maintain established and emerging telecommunications services and network infrastructures. Read more

Mission:

The program aims at preparing professionals able to design, develop, and maintain established and emerging telecommunications services and network infrastructures. This requires a vast body of knowledge, including signal processing, modulation, coding, networking, transmission media, and electromagnetism, as well as some aspects of electronics, automation, and computer science. The program grants a Master of Science Degree, which is a second-cycle degree equivalent to the Italian Laurea Magistrale.

Organization:

The program starts every year in September and lasts two years (four semesters), with a workload of 120 ECTS credits. All activities are in English.

Fees and Funding:

Tuition fees range from 360 to 1400 euro per year. LAZIODISU offers grants and accommodations to low-income students. International students may also obtain grants from the Italian Ministry of Foreign Affairs and the Italian Trade Commission.

Studying Abroad:

Students are encouraged to spend a period of study and/or to prepare their thesis abroad (earning up to 60 ETCS credits). The Erasmus mobility program allows students to study in partner European universities without paying additional tuition fees.

Internship:

Students are encouraged to make an internship experience so as to acquire working-oriented skills and become more aware of their professional choices (earning up to 6 ETCS credits). We offer internship programs in collaboration with partner companies and institutions. Traineeships in foreign companies and research centers are also available.

Career Opportunities:

Prospective jobs are available not only with telecommunications operators and manufacturers, but also in many other sectors where telecommunications are critical, such as finance, energy, defense, surveillance, healthcare, education, public services, commerce, traffic control, environmental monitoring, space exploration, robotics, etc. The program also paves the way to doctoral and postgraduate research studies.

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This masters course reflects the University of Sheffield's exceptional expertise in particle physics. Our researchers were part of the Higgs boson discovery and they continue to work on projects at the Large Hadron Collider at CERN, which some of our students get the chance to visit. Read more
This masters course reflects the University of Sheffield's exceptional expertise in particle physics. Our researchers were part of the Higgs boson discovery and they continue to work on projects at the Large Hadron Collider at CERN, which some of our students get the chance to visit. Sheffield is also home to researchers who are leading the way in, for example:

neutrino detection as part of the T2K collaboration
gravitational waves detection as part of the Advanced LIGO collaboration
dark matter experiments as part of the LUK-Zeplin experiment at Sanford Underground Research Facility and the DRIFT programme at Boulby Underground Laboratory
Our staff are supported by the UK Science and Technology Facility Council, the European Research Council, the Royal Society and Innovate-UK.

This one-year research degree is your chance to join us in unravelling some of the greatest mysteries in modern physics.

Core modules

Further Quantum Mechanics
Advanced Electromagnetism
Dark Matter and the Universe
The Development of Particle Physics
Research Skills in Physics
Research Project in Physics – this accounts for half of your final grade

Examples of optional modules

Advanced Particle Physics
Introduction to General Relativity
Particle Astrophysics
Advanced Quantum Mechanics
Physics in an Enterprise Culture
Semiconductor Physics and Technology
Statistical Physics

Teaching

Teaching is through lectures, research seminars, small group tutorials and oral presentation.

Your supervisor will help you develop your research skills and support you as you work on your research project.

Assessment

Assessment includes: a project report, literature review, oral presentations, including a viva, formal examinations and short reports and essays.

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This one-year research degree is a chance for you to develop your skills in one of the most exciting areas of modern science. It’s a unique opportunity to gain hi-tech skills that are central to the latest advances in electronics, IT and computing. Read more
This one-year research degree is a chance for you to develop your skills in one of the most exciting areas of modern science. It’s a unique opportunity to gain hi-tech skills that are central to the latest advances in electronics, IT and computing.

This course brings together our expertise in quantum photonics and nanomaterials. There is a particular focus on the study of novel fundamental phenomena in condensed matter systems as well as applications in quantum information processing, photovoltaics and optoelectronics.

Our staff are at the forefront of technological advances. We work with support from the UK Engineering and Physical Sciences Research Council, European Research Council and the Horizon 2020 programme, the Royal Society, the Leverhulme Trust and the British Council as well as CONACyT, the National Council of Science and Technology in Mexico.

Our department attracts postgraduate students from around the world.

Core modules

Optical Properties of Solids
Semiconductor Physics and Technology
Advanced Electromagnetism
Solid State Physics
Research Skills in Physics
Research Project in Physics

Examples of optional modules

Magnetic Resonance: Principles and Applications
Physics in an Enterprise Culture
The Physics of Soft Condensed Matter
Statistical Physics
Advanced Quantum Mechanics
Further Quantum Mechanics
Biological Physics

Teaching

Teaching is through lectures, research seminars, small group tutorials and oral presentation.

Your supervisor will help you develop your research skills and support you as you work on your research project.

Assessment

Assessment includes: a project report, literature review, oral presentations, including a viva, formal examinations and short reports and essays.

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Degree. Master of Science (two years) with a major in Applied Physics or Master of Science (two years) with a major in Physics. Teaching language. Read more
Degree: Master of Science (two years) with a major in Applied Physics or Master of Science (two years) with a major in Physics
Teaching language: English

The Material Physics and Nanotechnology master's programme focuses on the physics of new materials. The importance of advanced materials in current technology is best exemplified by the highly purified semiconductor crystals in use today, which are the foundation of the electronic age. Future applications in electronics and photonics will include nanoscaled physics, molecular electronics and non-linear optics.

The Materials Physics and Nanotechnology master's programme covers a wide range of materials used in for example semiconductor technology, optoelectronics and biotechnical applications. Students also study materials used in chemical sensors and biosensors, as well as materials' mechanical applications such as hardness and elasticity.

In the first semester students take mandatory courses such as Nanotechnology, Quantum Mechanics, Surface Physics and Physics of Condensed Matter, in order to get the knowledge necessary to understand advanced materials research.

The second and third semesters consist mainly of elective courses, and the fourth and final semester is devoted to a degree project in the area of material- and nanophysics.

The programme is supported by a number of internationally known research divisions, and is directed towards those who wish to pursue a university or industry career in materials-related research and development.

Welcome to the Institute of Technology at Linköping University

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