diffraction and high-resolution electron microscopy, which have made it possible to understand the growth process of superconducting layers and study their structure. “In situ synchrotron measurements, while growth is taking place, have been crucial to understand the process and to see that growth is indeed ultra-fast,” says Puig. Furthermore, “for the first time it has been shown that nanoparticles can be incorporated into the superconductor structure to form superconducting nanocomposites and maintain growth at 100 nm / s” indicates Puig. These nanocomposites are essential for the material to remain superconducting and to be able to carry high current densities in applications that require high magnetic fields, such as in the

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field of renewable energies (wind generators, fusion reactors), St.Pierre and Miquelon Email Lists transportation (electrical aviation) , or in magnets for high energy physics applications (particle accelerators). Prof. Teresa Puig has recently obtained an ERC Proof-of-Concept project to study the industrial and technological feasibility of this process, which would allow to produce superconducting layers on a large scale of interest for the mentioned applications, in an economically viable way. Tuberculosis (TB), caused by the microbe Mycobacterium tuberculosis complex (MtbC), has been infecting humans since the old stone age, or paleolithic period, when people lived as hunter-gatherers, organized in small groups. 43,000 years ago, during the Neolithic Age, people began to settle

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and create farms; Around this time, the most modern form of tuberculosis developed. TB is a devastating disease, it has killed an estimated 1,000,000,000 people in the last 200 years, the equivalent of the current population of the entire American continent, and it raises interesting questions. Why didn’t it wipe out the small population of the first humans? How have both tuberculosis and its hosts survived? And why do women seem to be more resistant to the disease than men? To answer these questions, The team led by Pere-Joan Cardona, head of the CIBERES group in the Experimental Tuberculosis Unit (UTE) of the IGTP, has carried out complex detective work using a mathematical model that combines biological, anthropological and

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