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Quantum cocktail provides insights on memory control
by Staff Writers
Zurich, Switzerland (SPX) Feb 05, 2018

Experiments in which atoms were immersed in a shaken crystal made of light provide novel insight that might be helpful to understand the fundamental behavior of magnetic storage devices.

The speed of writing and reading out magnetic information from storage devices is limited by the time that it takes to manipulate the data carrier. To speed up these processes, researchers have recently started to explore the use of ultrashort laser pulses that can switch magnetic domains in solid-state materials.

This route proved to be promising, but the underlying physical mechanisms remain poorly understood. This is largely due the complexity of the magnetic materials involved, in which a large number of magnetic entities interact with one another. Such so-called quantum many-body systems are notoriously difficult to study.

Frederik Gorg and his colleagues in the group of Prof. Tilman Esslinger in the Department of Physics at ETH Zurich (Switzerland) have now used an alternative approach to obtain fresh insight into the physics at play in these systems, as they report in a publication that is published in the journal Nature.

Gorg and his co-workers simulated magnetic materials using electrically neutral (but magnetic) atoms that they trapped in an artificial crystal made of light. Even if this system is very different from the storage materials they emulate, both are governed by similar basic physical principles.

In contrast to a solid-state environment, however, many unwanted effects resulting for example from impurities in the material are absent and all key parameters of the system can be finely tuned. Exploiting this reduction of complexity and degree of control, the team was able to monitor the microscopic processes in their quantum many-body system and to identify ways to enhance and manipulate the magnetic order in their system.

Most importantly, the ETH physicists demonstrated that by controlled shaking of the crystal in which the atoms reside, they could switch between two forms of magnetic order, known as anti-ferromagnetic and ferromagnetic ordering - an important process for data storage.

The fundamental understanding gained from these experiments should therefore help to identify and understand materials that might serve as the basis for the next generation of data-storage media.

Research paper


Related Links
ETH Zurich Department of Physics
Space Technology News - Applications and Research


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TECH SPACE
Ultralow power consumption for data recording
Sendai, Japan (SPX) Feb 05, 2018
A team of researchers at Tohoku University, in collaboration with the National Institute of Advanced Industrial Science and Technology (AIST) and Hanyang University, has developed new phase change material which has electrical characteristics that behave differently to those of conventional materials. This new material allows a drastic reduction in power consumption for data-recording in non-volatile random access memory. Phase change random access memory, PCRAM, has attracted attention as a ... read more

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