Spintronics research, STM

Spintronics research, STM

A150/0443 Rights Managed

Request low-res file

530 pixels on longest edge, unwatermarked

Request/Download high-res file

Uncompressed file size: 25.4MB

Downloadable file size: 741.0KB

Price image Pricing

Please login to use the price calculator

This image is part of the feature Atomic Construction


Caption: Spintronics research. Coloured scanning tunnelling micrograph (STM) showing ferromagnetic interactions between manganese atoms in a gallium arsenide semiconductor (blue). The spins of the atoms interact via a cloud of electrons (red and yellow). Gallium atoms in the semiconductor have been substituted by manganese atoms using the scanning tunnelling microscope, which allows precise substitution one atom at a time. This creates a magnetic semiconductor that would be able to store data as well as process it. This research is being carried out by Prof. Yazdani at Princeton Nanoscale Microscopy Laboratory, Princeton University, USA.

Release details: Model release not required. Property release not required.

Keywords: ali yazdani, american, atom, atoms, chemical, chemistry, clouds, coloured, computer chip, decoherence, doped, doping, electron cloud, entanglement, false-coloured, ferromagnetic, ferromagnetism, first, gallium arsenide, interacting, interaction, interactions, lab, laboratory, magnetic atom, magnetic semiconductor, manganese, model system, nanotechnology, physical, physics, pnml, princeton nanoscale microscopy, princeton university, professor yazdani, quantum mechanical, quantum physics, research, scanning tunnelling microscope, scanning tunnelling microscopy, semiconductor, single spin defect, single spin impurities, single spins, spin based electronics, spin-based nanodevice, spin-polarised state, spintronics, stm, structures, topography, united states, us, usa

Licence fees: A licence fee will be charged for any media (low or high resolution) used in your project.