Sort by
Refine Your Search
-
Listed
-
Category
-
Program
-
Employer
-
Field
-
operation of advanced software systems. You will join the technical staff at Department of Computer Science. Here, you will meet highly experienced colleagues that develop and maintains hardware and software
-
Characterization groups, which develops quantum photonic technologies for future fault tolerant quantum computing processors, while designing activities will be performed with the NQCP Theory and Simulation team
-
Programme? Not funded by a EU programme Is the Job related to staff position within a Research Infrastructure? No Offer Description Copenhagen Business School invites applications for a number of vacant PhD
-
researchers. Start of employment: June 1st, 2026, or as soon as possible thereafter. We offer an exciting postdoc position in a dynamic, informal, high-performing environment with dedicated, friendly colleagues
-
separation, mass spectrometry methods, and data processing pipelines Drive innovation through the development and implementation of new analytical and computational technologies that advance high-impact
-
the general study programme Wireless communication; as per May 1, 2026, or as soon as possible thereafter. The candidate will be based in Copenhagen at the CMI Section (Communication Media and Information
-
role is part of our commitment to advancing DTU Chemical Engineering as a world-leading department in chemical and biochemical product technology, with a special focus on sustainable, high-performance
-
hardware; optimization techniques for high-performance multicore processors; innovative hardware solutions targeting cybersecurity resilience; leveraging AI and cloud technologies in EDA; edge computing and
-
as well as abroad. Your primary tasks will be to: Solid modeling and design of high-performance OPAs based photonic integrated devices Nanofabrication of OPA based photonic integrated devices
-
functions associated with the failure mechanisms using high-fidelity Finite Element Analysis. Perform sensitivity and uncertainty analysis to uncover the most significant variables in the derived limit states