What’s New

The International Atomic Energy Agency (IAEA) has issued a challenge for data specialists from around the world to submit innovative ways to visualize, analyze and explore simulations of different materials that can be used to build fusion reactors.

Experts and self-taught enthusiasts are invited to analyze simulations of the damage that can be caused to the reactor wall by the energetic neutrons released by the fusion reaction. The contest leaves the nature of the software solutions open to enable novel approaches, but one or more of the following can be considered:

• Novel software for visualizing the material damage represented by the simulation data files in a way that aids its qualitative and quantitative assessment;
• New software tools to rapidly and reliably identify, classify and quantify new patterns and structures of particular kinds in the data sets;
• Efficient algorithms to depict and summarize the statistical distribution of atom displacements and to analyze the effect of impact energy on this distribution.

Deadline for submission is 14 July 2018. The winner will be awarded with €5,000 and invited to the IAEA Headquarters in Vienna to present his or her ideas.

See the original article as well as detailed information about the challenge on the IAEA website.

In the latest episode of the science and engineering podcast series Omega Tau, producer Markus Völter speaks with Pierre Bauer, a superconductor engineer at ITER, about superconductivity and its uses.

The listener is first taken back in time to hear about the discovery of superconductivity in 1911, when scientists were trying to liquefy helium in their quest to understand the behavior of metals at very low temperatures. Today, superconductivity is associated with the high-performance magnets used in nuclear fusion reactors, in particle colliders, for magnetic levitation in modern train systems, and also for medical magnetic resonance imaging.

Superconductivity was first observed in mercury; since then, research has resulted in the identification of better materials for low-temperature conductors such as niobium, which is used in ITER's niobium-titanium and niobium-tin superconductors.

Völter and Bauer touch on many more issues related to superconductivity in this episode that lasts almost three hours. It is not the first time that ITER has featured prominently in the podcast series. In October 2014, Omega Tau spoke with ITER's Richard Pitts on the physics and the engineering challenges of the project.

Listen to the podcast with Pierre Bauer here.

Listen to the podcast with Richard Pitts here.

In terms of local recruitment needs, the ITER Project is at an exceptional junction. At the same time as European Domestic Agency civil works contractors remain active on site, the ITER Organization is beginning to issue contracts related to the assembly and installation of components and systems inside of the completed buildings and technical areas.

All of these main contractors have employment offers to fill in a variety of areas. At a recruitment fair held on 14 June more than 500 jobs were on offer, as companies advertised for foremen, engineers, security specialists, welders, boilermakers, pipe-fitters, mechanics, shift supervisors, draftsmen and women, maintenance technicians and more.

If you live locally, you can see the full list of recruitment offers here.

The recruitment fair—advertising different types of French employment contracts—is organized annually by the Saint-Paul-lez-Durance employment association with the support of seven municipalities. For assignments at the ITER Organization, as directly employed staff, please see the ITER Organization website.