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World’s first magnetic hose created

Wed, 06/25/2014 - 11:01am

Alternating cylinder-shaped shells of ferromagnetic and superconducting material function as a magnetic hose. (Left) A cross section of the magnetic hose with a magnetic dipole source on one end. (Right) Illustration of the static magnetic field produced by a dipole source near the inlet of a two-layer magnetic hose. The hose creates (approximately) a displaced and rotated version of the dipole field at the other end of the hose. Image: C. Navau et alAn international team of scientists led by researchers from the Department of Physics of the Universitat Autònoma de Barcelona has developed a material which guides and transports a magnetic field from one location to the other, similar to how an optical fiber transports light or a hose transports water.

The magnetic hose designed by the researchers consists of a ferromagnetic cylinder covered by a superconductor material, a surprisingly simple design given the complicated theoretical calculations and numerous lab tests it had to undergo. A 14-centimeter prototype was built, which transports the magnetic field from one extreme to the other with an efficiency of 400% in comparison to current methods used to transport these fields.

Even with the efficiency of the prototype, researchers theoretically demonstrated that the magnetic hose can be even more efficient if the ferromagnetic tube is covered with  thin layers of alternating superconductor and ferromagnetic material.

The device designed by the researchers can be implemented at any scale, even at nanometre scale. Thus, a magnetic nanohose capable of individually controlling quantum systems could help to solve some of the current technological problems existing in quantum computing.

Magnetic fields guided by new technology

Magnetism is a basic element of today's technology, such as in energy generating processes and in the storage of information in computers. And one of the essential processes in these technologies is the conduct and transfer of magnetic fields, either with the use of large transformers or in logic nanodevices.

Light, formed by magnetic and electric field waves, can be very effectively conducted through optical fibres. Nevertheless, “until now there was nothing similar with which to guide and transport static magnetic fields,” explains Àlvar Sánchez, ICREA Academia and leader of the research. “To guide these fields in electronic circuits or in current transformers, ferromagnetic materials such as iron alloys are used, but their intensity quickly drops with the distance and their application is limited.”

International collaboration

Participating in the research, published this week in Physical Review Letters, were Carles Navau, Jordi Prat and Àlvar Sànchez, from the Department of Physics of the Universitat Autònoma de Barcelona; Oriol Romero Isart, from the Institute for Quantum Optics and Quantum Information of the Austrian Academy of Sciences and lecturer at the University of Innsbruck; and the recent winner of the prestigious Wolf Prize in Physics Juan Ignacio Cirac, from the Max Planck Institute of Quantum Optics in Garching, Germany.

Long-distance transfer and routing of static magnetic fields

Source: Autonomous University of Barcelona

 
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