Sort by
Refine Your Search
-
Listed
-
Category
-
Country
-
Program
-
Field
-
stochastic models with Hermite random perturbation and also with a significant practical part, related to the effective computation of the data and numerical simulation. Where to apply Website https
-
stochastic models with Hermite random perturbation and also with a significant practical part, related to the effective computation of the data and numerical simulation. Where to apply Website https
-
. - Coding of collected biological samples and inclusion in databases - Tasks related to in vitro cultures. - Cellular and molecular biology techniques. Where to apply Website https://www.inibic.es/empleo
-
simulation. Where to apply Website https://resurseumane.ase.ro/non-gaussian-self-similar-processes-enhancing-mathe… Requirements Research FieldEconomicsEducation LevelPhD or equivalent Skills/Qualifications 1
-
the potential of targeting host-cell metabolism to deprive intracellular bacteria of essential nutrients and boost the immune response. The candidate will work as part of an interdisciplinary team to help
-
Cell Biology of the University of Coimbra. III- Scientific supervision/coordination of the grant: João Nuno Sereno Almeida Moreira and Ana Teresa Monteiro Amaral. IV - Work Plan / Goals to be achieved
-
: Center for Neuroscience and Cell Biology of the University of Coimbra. III- Scientific supervision/coordination of the grant: João Nuno Sereno Almeida Moreira and Ana Maria Gonçalves Baptista. IV - Work
-
collective quantum phenomena to reach higher performance or lower dissipation (see, e.g., arXiv:2411.00944 ). Project details are available at: https://warsaw4phd.eu/en/candidates-2/research-projects/ in
-
assistance Athletic ticket discounts Access to UT Austin's libraries and museums Free rides on all UT Shuttle and Capital metro buses with staff ID card For more details, please see: https://hr.utexas.edu
-
. In this project, you’ll use single-molecule approaches to watch bacterial DNA polymerases copy DNA in real time—and discover how to stop them. DNA polymerases are essential for genome replication and