New Discovery Could Pave the Way for Spin-based Computing

  • By Workstudy User
  • 25 December 2014

Electricity and magnetism rule our digital world. Semiconductors process electrical information, while magnetic materials enable long-term data storage. A research team led by PQI faculty Jeremy Levy has discovered a way to fuse these two distinct properties in a single material, paving the way for new ultrahigh density storage and computing architectures.

Levy and colleagues published their work in Nature Communications, elucidating their discovery of a form of magnetism that can be stabilized with electric fields rather than magnetic fields.

Nanoscientists Suggest Use of Vacuums to Overcome Limits of Conventional Silicon-Based Semiconductor Electronics

  • By Aude Marjolin
  • 2 July 2012

With the advent of semiconductor transistors—invented in 1947 as a replacement for bulky and inefficient vacuum tubes—has come the consistent demand for faster, more energy-efficient technologies. To fill this need, researchers at PQI are proposing a new spin on an old method: a switch from the use of silicon electronics back to vacuums as a medium for electron transport—exhibiting a significant paradigm shift in electronics. Their findings were published in Nature Nanotechnology.

"Physical barriers are blocking scientists from achieving more efficient electronics," said Hong Koo Kim, PQI faculty and principal investigator on the project. "We worked toward solving that road block by investigating transistors and its predecessor—the vacuum."