You cannot apply for this job anymore (deadline was 1 Nov 2019).
Browse the current job offers or choose an item in the top navigation above.
The cerebellum is an intricately folded brain region positioned behind the brainstem. Although traditionally somewhat overlooked in neuroimaging, its role in many important brain functions has recently led to increased interest. The thin cortex and high degree of folding mean that only very high resolution, high quality imaging suffices for cerebellar cortical segmentation or laminae visualisation. The PhD student will work on MR methods to visualise the thin cerebellar cortex visualising cerebellar structure in great detail. Data analysis and clinical neuroscientific projects observing cerebellar cortical changes in patients will form a substantial part of the project. We are currently hiring multiple PhD students for related positions.
This position is ideal for students with a technical background seeking opportunities to contribute to neuroscience in human subjects. We strive for a diverse workforce and welcome letters from candidates who might widen the diversity of our team.
You will be appointed by the Royal Netherlands Academy of Arts and Sciences (KNAW). The appointment is in total for 4 year. Initially, the candidate will be appointed for 12 months followed by an evaluation after which the contracted is extended. Starting dates are flexible.
Gross monthly salaries are in accordance with the Collective Labour Agreement of the Dutch Universities (CAO NU), increasing from € 2325 per month initially, to € 2970 in the fourth year) excluding 8% holiday allowance and 8.3% year-end bonus. We offer an extensive package of fringe benefits.
The Spinoza Centre (SC) for Neuroimaging is a Royal Academy of Arts and Sciences institute and a unique initiative by the Amsterdam neuroscience and cognition community to strengthen its infrastructural base and to serve its frontline research. SC aims to provide deep and mechanistic insights into brain function in health and disease by focussing on the mesoscopic organisation scale that bridges the microscopic (cellular) and macroscopic (brain area) organisation scales of the human brain. SC has a unique focus on and bridging function between cognitive neuroscience, i.e. the neural mechanisms underlying human cognition and behaviour, and clinical neuroscience, i.e. the neural mechanisms underlying diseases and disorders of the human brain. The SC offers a resourceful and stimulating scientific environment. The SC houses 3T and 7T whole-body Philips scanners that are fully dedicated to research.
We like to make it easy for you, sign in for these and other useful features: