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well as on applications in multidisciplinary contexts. This position is part of the DRIVE project, funded by the Research Council of Norway (RCN) (2026-2030), focusing on brain-driven multi-sensory robotic avatars
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to advance our fundamental understanding of how the human brain forms perception and memories. For more information and how to apply: https://www.jobbnorge.no/en/available-jobs/job/294553/phd-research-fellow
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, physics, engineering and pharmacy to explore mechano-adaptation as a targetable vulnerability in the most aggressive brain cancer, Glioblastoma. The successful candidate will work closely with 3 other PhD
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the neuroscience work package which will investigate how HC use during adolescence influences structural and functional brain development and depression risk. Adolescence is a critical period of brain maturation and
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primary objectives: Establish single‑neuron tetrode recordings in humans. Investigate how time and sequence are represented in the human brain and how these representations support episodic memory. Identify
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research community in exploring near-analog biologic brain inspired solutions to reduce power consumption in neural networks. In this project you will be involved in a collaborative effort investigating
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. The project will collaborate closely with, and utilize existing linked data from, Regforsk at NTNU (https://www.ntnu.no/ism/forskning/regforsk#/view/publications). Deakin University in Melbourne, Australia is
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of Norway. The position is affiliated with the Center for Language, Brain & Learning (C-LaBL), more specifically the Brain domain. C-LaBL is financed by the Trond Mohn Foundation 2024-2029. The position is a
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. The GLIOFORCE team merges world-class expertise in biomedicine, physics, engineering and pharmacy to explore mechano-adaptation as a targetable vulnerability in the most aggressive brain cancer, Glioblastoma
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biological specimens, including: • Engineered Heart Tissues (EHTs) • Brain organoids • Live biological cell cultures • Fish and aquatic biological samples Multiple scattering severely limits image contrast and