RSS feed source: Global Disaster Alert and Coordination Systems (GDACS).
The Drought alert level is Green.
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Author: WeWorldMedia-admin
RSS feed source: Global Disaster Alert and Coordination Systems (GDACS).
The section of Digital and High-Frequency Electronics at the Institute of Mechanical and Electrical Engineering invites applications for one or more positions of Postdoctoral Researcher in Robotic System Design for Autonomous Task Manipulation for Repairing High-Voltage Lines. The starting date is November 2025 or as soon as possible thereafter.
What we offer
The role involves conducting research into innovative electromechanical robotic systems integrated with advanced sensing technologies, enabling the autonomous detection, interaction with, and replacement of small items (less than 10 kg). The position emphasizes system design and development for a variety of robotic applications, particularly those aligned with the section’s core focus on high-voltage line inspection and maintenance.
This work supports SDU Digital and High-Frequency Electronics’ internationally recognized leadership in advanced robotic technologies for infrastructure inspection and maintenance. Special attention will be given to developing robust electromechanical, sensing, and control solutions capable of operating safely in electrically
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RSS feed source: Global Disaster Alert and Coordination Systems (GDACS).
Scientists in Finland have measured the heaviest known nucleus to undergo proton emission, discovering the rare isotope 188-astatine. It exhibits a unique shape and may reveal a new kind of nuclear interaction.
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RSS feed source: Global Disaster Alert and Coordination Systems (GDACS).
Researchers have unveiled a new quantum material that could make quantum computers much more stable by using magnetism to protect delicate qubits from environmental disturbances. Unlike traditional approaches that rely on rare spin-orbit interactions, this method uses magnetic interactions—common in many materials—to create robust topological excitations. Combined with a new computational tool for finding such materials, this breakthrough could pave the way for practical, disturbance-resistant quantum computers.
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