Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
University of California San Francisco | San Francisco, California | United States | about 1 month ago
done in person, such as collecting data during study visits, performing quality control of imaging on devices at UCSF, and preparing study drug shipments. Responsibilities will include but will not be
-
Cancer Institute seeks a Research Fellow to focus on next-generation, translational pathology studies who will work within the Wolpin-Nowak laboratory (https://labs.dana-farber.org/wolpin-nowaklab/) as
-
open-access imaging centre that offers cutting-edge techniques to researchers all over Sweden according to a fixed organization and user fees as described on the homepage (https://www.umu.se/en/research
-
to detect, image, and analyze ferroelectric domains in 2D ferroelectric heterostructures. You will employ advanced cryogenic micro-spectroscopy, and reflection contrast imaging to visualize domain structures
-
-phosphorescent, photobleaching-resistant transition-metal complexes as EV-trackers; 2. To combine them with advanced time-resolved and correlative imaging techniques to enable EVs imaging; 3. Use (1) and (2
-
strong-correlation systems by means of atomic resolution electron microscopy. We use various microscopy techniques, such as electron tomography, in-situ imaging under electric bias, differential phase
-
of the different materials and their relative proportions in every pixel of the image (Fig. 1 and [1]). Applications include environmental monitoring, land cover estimation, physical parameter estimation, among
-
with data-driven life science. Job Duties Implement and adapt image analysis pipelines for microscopy, chemical imaging, and correlative multimodal workflows. Focus on robust, reproducible solutions and
-
the high fraction of coherent photons delivered by the upgraded ESRF-EBS storage rings to probe nano and atomic scale structures and dynamics. Dynamics is studied using X-ray Photon Correlation Spectroscopy
-
symmetry in the beta decay of radioactive ions. It is based on the measurement of the D angular correlation [1,2] between the recoil nucleus and the emitted positron in the decay of highly polarized ions