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Photonics Training Promoted

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DUESSELDORF, Germany, May 6, 2009 – Photonics21, one of several European Technology Platforms (ETPs) set up to give direction to Europe’s photonics community, is calling for action to align research efforts and to address a looming skills shortage in the industry.

“One of the main aims of the platform at the very beginning was to build up a European photonics community and prepare a comprehensive research strategy,” explains Markus Wilkens of the Photonics21 secretariat, based at VDI Technologiezentrum in Düsseldorf.

Wilkens is especially keen to promote education and training in photonics.

“The photonics industry in Europe faces a tremendous skills shortage. We are now trying to increase the number of photonics students or students […] relevant to the photonics industry,” he said.

Improved coordination at European level is already bearing fruit. Two-thirds of the participants in photonics projects funded in the second call of the Seventh Framework Programme are members of Photonics21 and national efforts will be coordinated under the ERA-NET Plus scheme.

A priority for 2009 is a major revision of the three-year-old strategic research agenda.

“One challenge will be to focus on the most promising areas in photonics where Europe should invest its money in a coordinated way,” said Wilkens. “We need to strengthen our strengths in order to stay competitive,” he emphasized.

In the three years that the platform has been running, the photonics community has been gradually getting its act together but, as Wilkens says, there is much more to be done.

“Above all, we need to improve trans-national cooperation between different players in Europe, especially universities and companies. We regard this as an ongoing, long-term goal of Photonics21. Joining forces will be the only way to tackle the increased competition we are facing from Asia and the USA.”

Photonics21 has set up links with other ETPs covering manufacturing, nanomedicine and e-mobility, and is supporting activities to strengthen national communities. For the first time, national technology platforms have been established in Spain, Italy, Greece, Poland and Switzerland, with more to come.

“We believe that only with strong national photonics communities can a ‘European community’ be successfully established in the long run,” Wilkens said.

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Indeed, national funding programs for next-generation access networks in Germany and the UK owe their origin to Photonics21.

Starting with 250 members in 2005, Photonics21 has now grown to encompass more than 1200 members in 49 countries. Almost half of the members are photonics companies, the majority of which are SMEs, and the rest are research centers and associations.

The project is organized into seven groups covering information and communication, industrial manufacturing, life sciences and health, lighting and displays, sensors and measurement, optical components and systems, and research, education and training.

One of Photonics21’s first acts was to publish, early in 2006, a 160-page strategic research agenda setting out the priorities for developing photonics in Europe. It listed the main technological challenges as the development of new, compact light sources, a more extensive coverage of wavelength range, integration of several optical functions into single components, and materials research in epitaxial films, quantum dots and meta-materials.

It called for better coordination and cooperation within the photonics community and warned of a shortfall in qualified workers if more was not invested in education and training. The report also said that Europe was not yet pulling its weight in the formulation of international standards.

One recommendation was quickly adopted. In 2007, the European Commission set up a Photonics Unit within the Information Society and Media Directorate General.

“This way the EU recognized photonics as a strategic technology for Europe,” Wilkens said. “And Photonics21 has now become the main advisory body for providing input to the photonics part of the EU’s Seventh Framework Program.”

Photonics21 also manages a database, which lists details of more than 2100 companies and 700 research centers active in photonics. According to Wilkens that number represents roughly 40 percent of all photonics companies in Europe.

For more information, visit: www.photonics21.org

Published: May 2009
Glossary
nano
An SI prefix meaning one billionth (10-9). Nano can also be used to indicate the study of atoms, molecules and other structures and particles on the nanometer scale. Nano-optics (also referred to as nanophotonics), for example, is the study of how light and light-matter interactions behave on the nanometer scale. See nanophotonics.
photonics
The technology of generating and harnessing light and other forms of radiant energy whose quantum unit is the photon. The science includes light emission, transmission, deflection, amplification and detection by optical components and instruments, lasers and other light sources, fiber optics, electro-optical instrumentation, related hardware and electronics, and sophisticated systems. The range of applications of photonics extends from energy generation to detection to communications and...
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