Spintronics-Info: the spintronics experts

Spintronics-Info is a news hub and knowledge center born out of keen interest in spintronic technologies.

Spintronics is the new science of computers and memory chips that are based on electron spin rather than (or in addition to) the charge (used in electronics). Spintronics is an exciting field that holds promise to build faster and more efficient computers and other devices.

Recent spintronics News

Germanium found to feature strong spin hall effect and spin accumulation over long distances

Apr 26, 2017

Researchers from the Polytechnic University of Milan discovered that germanium features a very strong spin hall effect and spin accumulation over long distances Germanium interfaces easily with silicon which means that it could be a strong candidate for future spintronics devices.

The team fabricated a 100-by-250-micrometer germanium rectangle doped with phosphorous on a silicon surface. Driving a current int he long dimension, the spin hall effect was measured by detecting the accumulated spin density vs position across the short direction (spin-up electrons should accumulate at one edge and spin-down at the opposite edge).

Topological insulators can be used to create "spin batteries"

Apr 20, 2017

Researchers from Purdue University have demonstrated how topological insulators can be used to create rechargeable "spin batteries". The demonstration showed how spin momentum locking can retain the spin even after two days without current.

Persistent spin polarization measurement

Spin momentum locking is an effect in topological insulators in which the spin of the electrons on the edge of the material change their spin when current is applied.

Researchers achieve magnetic switching using domain wall displacement

Apr 17, 2017

Researchers from Helmholtz-Zentrum Berlin managed to develop a robust and reliable magnetization switching process using domain wall displacement - without any applied field. This could lead to highly efficient spintronics memory devices.

Magnetic switching by domain wall displacement (HZB photo)

A spintronics memory design that uses tiny rings to enable two stable magnetization states - but the switching of the states usually requires a circular magnetic field. The researchers now devised a way to overcome to requirement - by using slightly displaced holes in the rings (which are thus thinner on one side), which means that a short uniaxial magnetic field pulse can switch between the two possible vortex states.

Researchers develop a spin-resolved oscilloscope

Mar 14, 2017

Researchers from the Tokyo Institute of Technology and Nippon Telegraph and Telephone Corporation developed a measurement instrument for plasmonics and spintronics. The so-called "spin-resolved oscilloscope" is seen as a step towards future "spin-plasmonics" devices that can achieve ultra-high-speed and low-energy-consumption.

Spin resolved oscilloscope scheme (TIT 2017)

The spin-resolved oscilloscope is composed of a spin filter and nanometer-scale time-resolved charge detectors. The spin filter separates the spin-up and -down electrons, while the time-resolved charge detector measures the waveforms of the charge-density waves. By combining these spintronic and plasmonic devices, the spin-resolved oscilloscope is established. The new device enables the measurement of the waveforms of both charge and spin signals in electronic devices. The charge signal is the total charge of the spin-up and -down electron densities, while the spin signal is the difference between the spin-up and -down electron densities.

Researchers develop world's fastest magnetic tunnel junction that is switched by light pulses

Mar 12, 2017

Researchers from the University of Minnesota developed a magnetic tunnel junction that is switched by using a short pulse of light. The switch operation takes only one trillionth of a second - which makes this the world's fastest magnetic tunnel junction.

Magnetic tunnel junction light-switch photo

To create this device, the researchers used ITO to create a transparent electrode on top of an ally made from called gadolinium, iron and cobalt. This material is already known to be switchable using light pulses.