Sort by
Refine Your Search
-
sensors?”. First, you will set up a table-top experiment using optical tweezers to trap nano- and microspheres in vacuum, a quantum-limited detector to measure their motion and opto-electrical control
-
that is scanned through the sample is re-imaged onto a conventional camera, enabling advances in resolution and signal-to-noise ratio. We strive for improving this technique with optical engineering of
-
We offer an exciting PhD position at TU Delft on the junction of computational imaging, optics, image processing, and biomedical research. Apply now and contribute to a better reconstruction of
-
-state physics, optics and quantum mechanics. Ideally the obtained insights will be used to select other materials with improved properties during your project. In this project you will learn the ins and
-
investigators, as well as a population of about 3,600 passionate students, the Faculty of Applied Sciences is an inspiring scientific ecosystem. Focusing on key enabling technologies, such as quantum- and
-
We offer an exciting PhD position at TU Delft on the junction of computational imaging, optics, image processing, and biomedical research. Apply now and contribute to a better reconstruction of
-
process analytical technology for in-line characterization of dense suspensions using optical coherence tomography (OCT). Here, you will explore the possibility to overcome the limited time resolution
-
We offer an exciting PhD position at TU Delft on the junction of computational imaging, optics, image processing, and biomedical research. Apply now and contribute to a better reconstruction of
-
& charge diffusion (Applied) physics, chemistry, computer science, imaging science, (electron) optics, solid-state physics, radiation chemistry 3. Signal generation and detection Artefact and charging damage