18 applied-linguistics-phd "University of Birmingham" positions at AMOLF in Netherlands
Sort by
Refine Your Search
-
Category
-
Program
-
Field
-
The Learning Machines group seeks motivated PhD students to join our team working on learning in physical systems. What are learning machines? Imagine your favorite artificial intelligence machine
-
As a PhD-student in our Physics of Cellular Interactions group headed by Dr. Kristina Ganzinger, you will apply state-of-the-art techniques to generate transmembrane protein mimics for communication
-
Are you eager to pursue a PhD on the interface of nanophotonics and highly nonlinear optics? Are you looking for a PhD project that combines scientific advances with relevance for applications? In
-
Are you looking for a challenging project in which you develop fundamental advances in metaphotonics and work with high-tech industry to apply them? In this project we aim to develop nanophotonic
-
Large-language models (LLMs) have impressive capabilities, such as automatically generating code, writing poetry, or summarizing text; but can they be used to automate the design of mechanical
-
to contribute to new technologies that realize radical improvements in the energy efficiency of information and communication technology? As part of the Dutch consortium NL-ECO on energy-efficient computing
-
single-molecule look at chaperone-guided protein-assembly biogenesis may reveal a host of unexpected phenomena. You will drive the conceptual development of new experimental schemes, the use of cutting
-
Are you intrigued by the forefront of biophysics technology – and integration with genome-wide data and AI methods? Thanks to groundbreaking advancements, we can now show the internal dynamics
-
Did you know high-energy electrons can serve as efficient sources of optical excitation of matter? Our group has developed cathodoluminescence (CL) microscopy, in which we use 1-30 keV electrons in
-
Did you know high-energy electrons can serve as efficient sources of optical excitation of matter? Our group has developed cathodoluminescence microscopy, in which we use 1-30 keV electrons in a