Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
, materials, devices, chips, equipment research, and cutting-edge micro nano science and technology. You will conduct your research in the National Key Lab of Spintronics, based on the Hangzhou International
-
: - Physics, Engineering, Material Science or related fields - Background in solid-state physics or magnetism - Strong interest in experimental physics and cleanroom nanofabrication - Skills in computational
-
and spintronic devices. Your future responsibilities: Technology development for RF-based magnetic devices, specifically circulators, from concept to prototype. Collaborate with process engineers
-
-controlled via spin-orbit coupling in a non-volatile manner, by a ferroelectric state. This opens up new programmable functionalities, such as the FESO (Ferro Electric Spin Orbit) technology, enabling the non
-
Description of the offer : When a magnon propagates through a magnetic medium, no electrical charge transport is involved and hence no electrical losses occur. We aim to explore engineered
-
demand for data storage and transfer between electronic devices (from data centers to personal computers, mobile phones to Internet of Things devices, etc.) necessitates denser and faster technology. In
-
The student will focus on creating magnetic and electrically conductive nanoparticles, further development of novel polymer nanocomposite for Environment, Energy, Sensor, and Healthcare Application
-
Description of the offer : We are looking for a postdoctoral researcher to work on a project within the Spin-Electronics Group at the National Institute of Standards and Technology (NIST) in Boulder
-
largest research centre for the natural and engineering sciences in Switzerland. The current research focus is the investigation of novel magnetic systems at the mesoscopic scale making use of the clean
-
European Magnetism Association EMA | Villeneuve la Garenne, le de France | France | about 1 month ago
on this technology. Theoretical studies, corroborated by preliminary experimental results, have shown that hybrid devices allow reaching record sensitivities in the measurement of forces, temperature and electric