ESS, MAXIV and Lund University start first joint laboratory
The European Spallation Source, MAXIV Laboratory and the Department of Physics at Lund University start the first joint laboratory. The new laboratory is the first step towards the building-up of joint infrastructure in the future Science City to be located between MAXIV and ESS.
The Joint Detector Laboratory will be the first facility shared by ESS, MAXIV and Lund University. In the laboratory, novel types of detectors suitable for the future ESS and MAXIV facilities will be developed.
ESS and MAXIV will be complementary research facilities. In order to fully make use of the potential scientific synergies of these two leading research facilities, initiatives are being taken to strengthen the scientific exchange between MAXIV, ESS and Lund University. The development of joint infrastructures, such as joint laboratories, is one part of this.
- The Joint Detector Laboratory will be an important step in the process of bringing ESS and MAXIV closer. It will also serve as example for how competences and infrastructure at a university can benefit the MAX IV and ESS facilities, says Jesper Andersen, Science Director at the MAX IV Laboratory.
ESS will have around 30 times higher neutron flux than existing neutron sources, which makes it a particular challenge to build detectors. Building the MAXIV detectors pose a similar challenge, since MAXIV will have the most brilliant synchrotron light of any X-ray research facility. The Photonuclear Group of the Division of Nuclear Physics, based at the existing MAX-lab, has vast experience of photon and neutron detector development.
In the Joint Detector Laboratory, novel types of detectors will be developed and built. Through collaborating, all three parties will benefit from the sharing of knowledge and resources.
- This is particularly important to ESS for several reasons. Firstly, this is the first ESS laboratory and our first physical infrastructure here in Lund. In fact, we consider this as a first step towards Science City. Secondly, detector development is crucial to ESS, and we need to build up expertise here in Lund, says Richard Hall-Wilton, Group Leader for the ESS Detector Group.
- There are large similarities between detectors for X-rays, neutrons and nuclear physics. The pooling of equipment and skills will mean that we can develop better detectors, says Dr Kevin Fissum at the Photonuclear Group at the Lund University Department of Physics.
The first stage in the collaboration will mean sharing the existing detector laboratory at MAX-lab. In a second stage, during 2012, the activities will be significantly expanded.
Detectors are essential equipment in laboratories using particles or light to study different materials. The detectors measure how the neutrons or the synchrotron light interact with the scientist’s sample. Thus they are crucial for the gathering of information that will enable understanding of the characteristics of the sample.
The Joint Detector Laboratory will be operated by the MAXIV Laboratory, ESS and the Department of Physics at Lund University. Science City is the area planned to be built between ESS and MAXIV. Science City will host laboratories and other infrastructure jointly operated by ESS and MAXIV, and other activities related to research and development.
PRESS PHOTOS
Press photos are available for down-loading, please see the linked images at the end of the mail.
For more information, please contact:
Richard Hall-Wilton, Group Leader Detector Group, ESS. richard.hall-wilton@esss.se, +46-(0)46-222 67 48
Marianne Ekdahl, Communications Officer Press & Politics, ESS. marianne.ekdahl@esss.se, +46-(0)46-222 83 89
MAXIV Laboratory: Jesper Andersen, Science Director. jesper.andersen@maxlab.lu.se, +46-(0)702-16 92 96
Lund University: Kevin Fissum, Department of Physics. kevin.fissum@nuclear.lu.se, +46-(0)708-32 33 09
ESS IN SHORT:
The European Spallation Source – the next generation facility for materials research and life science
The European Spallation Source (ESS) will be a multi-disciplinary research laboratory based on the world’s most powerful neutron source. ESS can be likened to a large microscope, where neutrons are used instead of light to study materials – ranging from polymers and pharmaceuticals to membranes and molecules – to gain knowledge about their structure and function. ESS will be up to 100 times better than existing facilities, opening up new possibilities for researchers in for example health, environment, climate, energy, transport sciences and cultural heritage.
ESS is an intergovernmental research infrastructure project, and it will be built in Lund in southern Scandinavia. At least 17 European countries will take part in the construction, financing and operation of the ESS. Sweden and Denmark will co-host the ESS and cover 50 percent of the 1,4 B€ investment costs and 20 percent of the operating costs together with the Nordic and Baltic states.
The European Spallation Source ESS AB is a public limited company, today owned by the Swedish and the Danish states. ESS AB is currently working on finalizing the ESS technical design, planning the future research at ESS, preparing for construction, and planning the future international ESS organisation. This is done in collaboration with a large number of international research institutes and laboratories. Construction is expected to start in 2013, the first neutrons to be produced in 2019 and the facility to be fully operational around 2025.
ESS is expected to support a user community of at least 5000 European researchers and will have great strategic importance for the development of the European Research Area. Near by there will be complementary laboratories, such as the synchrotron MAX IV in Lund and XFEL and PETRAIII in Hamburg.
ABOUT THE MAXIV LABORATORY
MAX-lab is a synchrotron radiation facility which forms part of the MAX IV Laboratory. The MAX IV Laboratory is a national research laboratory comprising MAX-lab and the MAX IV project. It is run by Lund University and the Swedish Research Council and is located in Lund. www.maxlab.lu.se
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