Sort by
Refine Your Search
-
Category
-
Employer
-
Field
-
and science communication contribute to PRIF's success. We are looking for a new colleague to join our CNTR Research Group “Chemical and Biological Weapons Control” that is part of our Research
-
robotic and automation subsystems. We are searching an interdisciplinary scientist with a passion for translating their expertise into biological applications. You will engineer new sensing and control
-
establishing a precise reliable microfluidic control is via flows induced via electric fields in anisotropic media. It turns out that such devices are prone to random fluctuations, which can influence the system
-
and control system for real-time control and operation at autonomy level 3 as defined by the International Maritime Organization (IMO 1). The control system to be developed will almost completely avoid
-
innate immune responses. Our group uses a wide range of experimental methods, including multiparameter flow cytometry, single cell gene expression analysis and in vitro culture systems, including 3D human
-
. The position is initially offered for a period of 2 years. The starting date is as soon as possible. The position is fulltime with salary and benefits commensurate with a public service position in the state
-
Max Planck Institute for Dynamics and Self-Organization, Göttingen | Gottingen, Niedersachsen | Germany | about 1 month ago
experience with nonequilibrium statistical physics and a strong interest in active matter physics; Ability and desire to work in an international team on inter-disciplinary research topics; Good command
-
diversification in an internationally recognized research environment. About the Lab – Our group studies the fundamental processes that safeguard genome stability while enabling controlled genome diversification
-
reduction and uncertainty quantification for biological flows. The goal of the project is, in particular, the development of robust methods to quantify the propagation of domain uncertainties in
-
purpose of this position is to conduct research in the field of model reduction and uncertainty quantification for biological flows. The goal of the project is, in particular, the development of robust