Prof. Joe Trodahl from MacDiarmid Institute for Advanced Materials and Nanotechnology, Victoria University of Wellington
Event Start:
2018-10-18T14:00:00
Event End:
2018-10-18T15:00:00
Event Information:
Controlling the flow of electronic spin in addition to the charge promises speed and power demand advantages. However, there are as yet few “spintronic” devices on the market, in part due to a lack of intrinsic ferromagnetic semiconductors that would permit full exploitation of the coupled spin/charge technology. To date the only full series of such materials are the mononitrides of the lanthanides, the 14 rare-earth elements.
Event Location:
AMPEL 311
Speaker:
Prof. Joe Trodahl from MacDiarmid Institute for Advanced Materials and Nanotechnology, Victoria University of Wellington
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Event Start:
2018-10-18T14:00:00
Event End:
2018-10-18T15:00:00
Prof. Joe Trodahl from MacDiarmid Institute for Advanced Materials and Nanotechnology, Victoria University of Wellington
Event Information:
Controlling the flow of electronic spin in addition to the charge promises speed and power demand advantages. However, there are as yet few “spintronic” devices on the market, in part due to a lack of intrinsic ferromagnetic semiconductors that would permit full exploitation of the coupled spin/charge technology. To date the only full series of such materials are the mononitrides of the lanthanides, the 14 rare-earth elements.
Event Location:
AMPEL 311