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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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Outline of the program. The Master PICS program provides a comprehensive program of courses covering theoretical, experimental and engineering aspects of photonics, micro/nano technologies, time-frequency metrology, information theory and complex systems. Read more

Outline of the program

The Master PICS program provides a comprehensive program of courses covering theoretical, experimental and engineering aspects of photonics, micro/nano technologies, time-frequency metrology, information theory and complex systems. It is delivered by the University of Bourgogne Franche-Comté (UBFC) in the city of Besançon. It is designed to cover a selection of topics at the interface of physics and engineering sciences, closely integrated with domains of research excellence developed in the Region of Bourgogne Franche-Comté (BFC). The master’s program also provides complementary courses in disciplinary and interdisciplinary knowledge, as well as broad digital, societal, cultural, environmental, and entrepreneurial skills. It is open to students with undergraduate physics degrees, and it aims to provide complementary courses to prepare students for careers in either industry or for future PhD level studies. The PICS masters is strongly supported by the FEMTO-ST Institute and the ICB Laboratory, research institutions with major international reputations in Physical Sciences and Engineering. The PICS Master’s program has received a national label as a Master’s of Excellence for Engineering and Research, entitled CMI (“Cursus master en Ingénierie”) which is delivered by the CMI-FIGURE network which consists of 28 universities in France.

Our Master’s program

Photonics and nanotechnologies are one of the 6 Key Enabling Technologies identified by the European Commission as sources of innovation and competitiveness for the future. They are technological sectors that feed competitive and fast-growing markets (environment, health, automotive, safety, etc.) and there is a strong need for qualified graduates to support developing European Industry.  When compared to other French Masters programs in similar fields, the particular novelty of the Masters PICS is that it focuses on teaching multi-disciplinary skills on both the practical and fundamental level in a very wide range of topics: photonics, micro and nano-optics, quantum optics, micro-nanotechnologies, instrumentation, time-frequency metrology, micro-oscillators, micro- and nano-acoustics, bio-photonics, and complex systems.  

 

The FEMTO-ST and ICB Institutes are the underlying UBFC laboratories that support the master PICS program. The FEMTO-ST Institute in Besançon (http://www.femto-st.fr/en/), with more than 750 staff, is one of the largest laboratories in France in Engineering Sciences, having high international visibility in photonics, nanotechnology and time frequency technology. The ICB Institute in Dijon (icb.ubourgogne.fr/en/), with a staff of 300 people, is also an underlying UBFC laboratory of the PICS master’s. The PICS master’s program is based on the internationally highly recognized research activities of all these laboratories in photonics, micro & nanotechnologies, time-frequency and complex systems, with teaching and supervision being performed by renowned and highly qualified researchers (professors, assistant professors, or full-time CNRS researchers).

 

The courses, taught in English (see Teaching section), are divided between lectures, exercises/tutorials, practical labs and project activities. Students will be immersed in the labs from their 1st year of study, closely connected with the research groups via lab projects that will run throughout semester 1 to 3.  Individual supervision will be provided to all students, combining a personal project advisor and a mentor. 

 

A one-semester research internship in semester 4 can be carried out at FEMTO-ST, ICB, or a local or national industry partner. Students also have the possibility to obtain significant international experience by carrying out Master’s Internships (5-6 months) abroad at internationally-renowned universities having strong research collaborations with FEMTO-ST and ICB. The proposed PICS Master’s program is also based on strong interactions with high-tech industrial partners both at the local and international levels. 

 

Teaching

The PICS master’s program takes place over 2 academic years divided into 4 semesters. Each semester corresponds to an accreditation of 30 ECTS, which leads to a total at the end of 120 ECTS.  The program has an extensive international flavor, with all courses taught in English, except two modules of 3 ECTS in semesters 1 and 3 that will introduce French culture and language for foreign students, and organized in close connection with another master’s programs. We offer the opportunity to obtain French language certification (B2 at minimum).  The teaching staff are highly qualified researchers with international recognition and all teaching staff are fluent in English, with many at native or near-native level.

Future Career prospects

Photonics and micro/nano technologies are very dynamic industrial sectors in Europe and hold 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 high level research activities in these domains. It focuses on fundamental & applied research mainly targeting careers in industry (R&D engineer) or for future PhD level studies either in academic institution or industry.

Student profile

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

Living in Besançon

Besançon is a historical town with a strong university community, and is consistently voted as having an excellent quality of life. It is home to a UNESCO-World Heritage listed citadel and fortifications, and is well known for its proximity to an excellent range of outdoor pursuits including hiking, mountain-biking, skiing and rock-climbing. 

Grants

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



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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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Course description. You will learn from researchers who were part of the discoveries of the Higgs boson, the third neutrino mixing angle, and gravitational waves. Read more

Course description

You will learn from researchers who were part of the discoveries of the Higgs boson, the third neutrino mixing angle, and gravitational waves.

You’ll be able to take part in front-line experiments at the LHC, in neutrino physics, in the search for dark matter, and in gravitational waves.

You will develop the skills to make new discoveries at the frontiers of physics.

Core modules

  • Dark Matter and the Universe
  • Further Quantum Mechanics
  • The Development of Particle Physics
  • Advanced Electromagnetism
  • Research Skills in Physics
  • Research Project in Physics

Examples of optional modules

Choose from a range including:

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

Teaching and assessment

One-year individual programme of research.

Taught material is complemented by a 12-month research project in one of our world-leading research groups.

Depending on the subject of your project, it may be possible for you to complete your research at a laboratory outside the University of Sheffield – for example, at CERN.



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Course description. This masters by research course brings together the University of Sheffield’s expertise in quantum photonics and nanomaterials. Read more

Course description

This masters by research course brings together the University of Sheffield’s 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.

Core modules

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

Examples of optional modules

Choose from a range including:

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

Teaching and assessment

One-year individual programme of research.

Taught material is complemented by a 12-month research project in one of our world-leading research groups.

Your training will cover optical experiments and fabrication of devices in our state-of-the-art laboratories as well as numerical methods and more.



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The Master degree in "ICT for Internet and Multimedia," offered by the University of Padova, captures the evolution of professional engineering figures, and represents a modern teaching offer that combines both solid fundamental knowledge and advanced technological competences. Read more

The Master degree in "ICT for Internet and Multimedia," offered by the University of Padova, captures the evolution of professional engineering figures, and represents a modern teaching offer that combines both solid fundamental knowledge and advanced technological competences. For this reason, the program contains both strong theoretical courses and applied research-oriented teaching towards advanced technologies for the future society. The graduate in "ICT for Internet and Multimedia" is able to master complex systems, manage data, plan strategies, and perform innovative activities in the broad area of ICT, with specific focus on communication networks and signal processing, but also an underlying awareness of the physical reality that enables such systems to operate and communicate.

Several professional figures can be formed by this program, including, but not limited to, transmission and communication specialists, ICT security consultants, multimedia communication engineers, experts of cyber systems, photonics scientists, and professional figures able to use technology for improving life and health.

Other relevant features of this program include a strong cross-disciplinary networking, similar to how the Internet brings together different subsystems; a genuine vocation toward internationalism and diversity, joining different cultures in the same spirit of multimedia communication; and finally, internships and practical experiences on the field with a tight-knit industrial collaboration, to make the ICT society a reality.

Course structure

This degree provides a multidisciplinary education path in the field of information engineering, with an innovative fluid teaching model. This gives the students the ability to mould their expertise towards several specific applied disciplines, while still receiving a solid general-purpose engineering culture.

The course is organized in four curricula:

  • Telecommunications - the classical telecommunication course covering transmission, networks, signal and image processing, electromagnetism and transmission devices 
  • Cybersystems – an interdisciplinary curriculum oriented to networks and big data
  • ICT for life and health – an interdisciplinary curriculum oriented to applications in health and life sciences
  • Photonics - an interdisciplinary curriculum towards physics and material sciences

The full list of offered courses (all in English) is available at: http://en.didattica.unipd.it/off/2017/LM/IN/IN2371. Click on the curriculum you are interested in (“degree course tracks” at the beginning of the web page) in order to have a clearer view on the teaching offer.

Career opportunities

Graduates in "ICT for Internet and Multimedia" are trained for the analysis, design, planning, and management of complex ICT systems and applications. They are qualified to provide technical support to business within manufacturing and service companies, or public administrations. They are also perfectly targeted at research institutions, or the academia. Their added value is given by their training in an international and collaborative environment, as well as by a rich proficiency in English.

They have ICT-specific capabilities as: ICT system designers; specialists and operators of ICT equipment and systems; researchers in the ICT sector and the next generation Internet; telecommunications networks and complex systems administrators and designers, managers of platforms implementing multimedia services; technical analysts in regulatory bodies for telecommunications. Additionally, they acquire multidisciplinary competencies as: experts in cybersecurity; Big Data algorithms developers; system designers for the capture and processing of information from biological instruments, sensors, and actuators; designers and devel

Scholarships and Fee Waivers

The University of Padova, the Veneto Region and other organisations offer various scholarship schemes to support students. Below is a list of the funding opportunities that are most often used by international students in Padova.

You can find more information below and on our website here: http://www.unipd.it/en/studying-padova/funding-and-fees/scholarships

You can find more information on fee waivers here: http://www.unipd.it/en/fee-waivers



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The MSc in Science of Energy consists of.  six taught modules.  worth 10 ECTS each. These are structured around a . Read more

The MSc in Science of Energy consists of six taught modules worth 10 ECTS each. These are structured around a cross-cutting introductory module. The introductory module is designed to furnish students with all of the basic physics, chemistry and engineering concepts that are required to become an "Energy Scientist". These basics are complemented by essential "Economics of Energy" and "Principles of Energy Policy".

Now with the ability to understand and analyse the competing aspects of all of the essential science, engineering and economics pertinent to the energy discipline, the students proceed to Five specialised technically orientated core modules; "Conventional Energy Sources & Technologies", "Electric Power Generation and Distribution", "Sustainable Energy Sources & Technologies I & II", and "Managing the impact of Energy Utilisation".

With these modules completed and examined in the months September to April, students proceed to a 15 week research project worth 30 ECTS in a leading research laboratory or in industry in the months of May-August.

Course Structure

The curriculum is designed to allow students from a science, engineering, or other backgrounds with relevant experience, to gain the scientific knowledge needed to contribute to the energy sector. This can be through industry, business, academia, government policy or media communication. Students will examine the fundamental and applied science of how energy resources could be diversified from conventional polluting sources (e.g. CO2, NOX, SMOG) to renewable sources, where the sustainability of both the energy source and the conversion technology is presently unknown.

Programme at a Glance

1. Introductory Module - September to November

  • Energy Policy and Economics of Energy
  • Thermodynamics, Heat Transfer & Reaction Kinetics
  • Energy Generation & Storage Electromagnetism
  • Greenhouse Gases and the Carbon Cycle

2. Specialised Modules - December to March

  • Conventional Energy Sources & Technology
  • Electric Power Generation and Distribution
  • Sustainable Energy Sources & Technologies
  • Managing the Impact of Energy Consumption

3. Dissertation by Research - April to August

  • 15 week Research Placement in Industry or Academia

Programme Information

The programme includes interactive lessons, workshops and group projects. Students can also undertake research in the form of a company project instead of the standard dissertation.



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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 provides students with specialist knowledge in the area of new materials. Huge advances in modern technology and products in recent decades have to a large extent relied on developments in this field.

The importance of advanced materials in today’s technology is best exemplified by the highly purified semiconductor crystals that are the basis of the electronic age. Future implementations and applications of materials in electronics and photonics involve such subjects as nano-scale physics, molecular electronics and non-linear optics.

With support from internationally competitive research activities in materials physics at Linköping University, the programme has been established with distinct features that offer students high‑level interdisciplinary education and training in fundamental solid state physics and materials science within the following areas:

  • Electronic materials and devices
  • Surface and nano-sciences
  • Theory and modelling of materials
  • Organic/molecular electronics and sensors.

Advanced equipment training

The programme emphasises the comprehension of scientific principles and the development of personal and professional skills in solving practical engineering problems. Studies begin with mandatory courses, including nanotechnology, quantum mechanics, surface physics and the physics of condensed matter, in order to provide students with a solid knowledge foundation for modern materials science and nanotechnology. Moreover, through courses in experimental physics and analytical methods in materials science, students gain extensive training in operating the advanced instruments and equipment currently used in the research and development of new materials.

In-depth CDIO courses

A variety of elective courses is offered from the second term onwards, many of them involving the use of cutting-edge technology. These courses give students a broad perspective of today’s materials science research and links to applications in semiconductor technology, optoelectronics, bioengineering (biocompatibility), chemical sensors and biosensors, and mechanical applications for high hardness and elasticity. Students will also be instructed through in-depth CDIO (Conceive – Design – Implement – Operate) project courses, to develop abilities in creative thinking and problem solving.

Students complete a thesis project in the area of materials science and nanotechnology, either with an in-house research group or the industry.



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