Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Field
-
specializes in measurement, control and conversion of the motional quantum states. We have pioneered mechanical systems with exceptional coherence which allow reaching new regimes in this endeavor, in terms
-
University within the chair Crop Physiology . You will be supervised by prof. Jochem Evers (WUR) and prof. Kirsten ten Tusscher (UU). Regular meetings will be organised with both PhD students and their
-
that are still largely controlled with insecticides. Alternative, more sustainable methods to combat these pest are desperately needed. Plants harbour diverse and dynamic microbial communities in and around their
-
the GRE; applicants with a Q score below 160 will not be considered. Excellent command of English (IELTS/TOEFL). Students whose native language is not English are therefore required to demonstrate English
-
-fabrication processes for superconducting devices Automatic bring-up and calibration of quantum processors Design and simulation of quantum processors Optimal-control techniques for high-fidelity qubit
-
sustainable materials, (d) Artificial Intelligence (AI) models to predict and control the manufacturing process and (e) a Digital Twin (DT) incl. Building Information Modeling (BIM) information backbone
-
in Trondheim. At NTNU, 9,000 employees and 43,000 students work to create knowledge for a better world. You will find more information about working at NTNU and the application process here. ... (Video
-
Lab of Entomology - WUR , which is led by Prof. Bregje Wertheim ( Bregje Wertheim - Wageningen University & Research ). You will be co-supervised by Dr. Alexander Haverkamp ( Alexander Haverkamp
-
in control systems and fluid-structure interaction. The students will be supervised by Prof Khac Duc Do and the co-CIs of the project. Student type Future Students Faculties and centres Faculty
-
all over Germany join forces to integrate a thermodynamic description into the processes understanding of soil systems and gain insights into how energy and matter fluxes drive organic carbon dynamics