About us

Florian Winkler, Juri Barthel, Amir H. Tavabi, Sven Borghardt, Beata E. Kardyna, Rafal E. Dunin-Borkowski

Research

The ER-C is a centre of excellence in advanced transmission electron microscopy and spectroscopy for addressing topical problems in solid state physics and chemistry, materials science, soft matter and biology.

Landscape

Users

The ER-C operates a user facility that provides access to state-of-the-art instruments, methods and expertise to universities, research institutions and industry. It is governed jointly by FZJ and RWTH Aachen.

Vincenzo Grillo, Alberto Roncaglia, Paulo Rosi and the Q-SORT project.

Methods

New techniques and instrumentation are developed by the ER-C’s scientific and technical staff in collaboration with academic and commercial partners, as well as with the instrumentation institutes in Forschungszentrum Jülich.

Instruments

Structural Change / ER-C 2.0

The project ER-C 2.0 aims to expand our infrastructure in order to create unique characterization opportunities. This helps to create targeted incentives for companies to move to the Rhineland.

Landscape

Landscape

The ER-C is a key part of the European landscape of infrastructures for the characterization of materials using advanced techniques and instrumentation.

Lab tours of ER-C

Careers

The ER-C offers opportunities for students (B.Sc. / M.Sc. / PhD) and scientists to conduct research in fundamental and applied electron microscopy. We provide access to world-leading instruments and support from our experts.

News and Events

Skyrmionen

Skyrmion Research: Braids of Nanovortices Discovered

A team of scientists from Germany, Sweden and China has discovered a new physical phenomenon: complex braided structures made of tiny magnetic vortices known as skyrmions. Skyrmions could provide a possible basis for innovative concepts in information processing that offer better performance and lower energy consumption.

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PGI Colloquium: Prof. Dr. Adam Kaminski, Iowa State University and Ames Laboratory, USA

Topological materials are characterized by the presence of nontrivial quantum electronic states, where often the electron spin is locked to its momentum. This opens up the possibility for developing new devices in which information is processed or stored by means of spin rather than charge.

Focus

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ER-C for External Users

Access to the ER-C’s facilities is provided on the basis of peer-reviewed applications. Please contact our User Office for further information.

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ER-C 2.0

As part of the programme to promote structural change in the Rhineland, the Ernst Ruska-Centre at Forschungs- zentrum Jülich is to be strategically expanded within the framework of the ER-C 2.0 project, and as a national research infrastructure for high-resolution electron microscopy, will create characterisation capabilities that are unparalleled world- wide. With its unique profile, the Rhineland is thus set to become Germany's most attractive region for the establishment of new materials technologies.

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How the "PICO" Microscope Works

A unique transmission electron microscope with a resolution of 50 picometres has been available in the ER-C since February 2012. Learn here how the "PICO" (Advanced Picometre Resolution Project) works.

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JuStruct

The Jülich Centre for Structural Biology ("JuStruct") is a user platform for determining atomically-resolved structures of medically and neurobiologically relevant proteins using NMR spectroscopy, X-ray crystallography, computer simulations, neutron scattering, neutron spectroscopy and cryo-EM.

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ESTEEM3

ESTEEM3 – Enabling Science and Technology through European Electron Microscopy – is an EU funded project for electron microscopy, which aims at providing access to leading European state-of-the-art electron microscopy research infrastructures.

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3D MAGIC

This European Research Council Synergy project aims at studying three-dimensional magnetic solitons with high temporal and spatial resolution, bringing together experts on magnetic imaging, magnetic manipulation, theory and device applications.

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Q-SORT

Thanks to smart phase manipulation, Q-SORT revolutionises the electron microscope by turning it into a so-called Quantum Sorter, yielding new insights in solid-state physics and biochemistry. This cutting-edge research project is funded by the EU’s FET OPEN Programme.