-
new data will be linked with information from samples previously collected during pregnancy, there will also be opportunities to be involved with analysis of multi-omic data to study mechanisms
-
optimising the performance of the vertex detector design for LHCb Upgrade II. Physics analysis is possible, if time allows. Applicants should hold, or be close to completing, a doctoral degree in experimental
-
hardware support mechanisms. Your role will include the design, implementation and evaluation of different parts in the system, and the integration with other partners in the project. About you You should
-
signalling in DNA damage and/or immunity responses. The post-holder will be responsible for managing own academic research, adapting existing and developing new scientific techniques and experimental protocols
-
the molecular mechanisms of ribosome biogenesis dysregulation in cancer. This full-time fixed-term post is funded by Cancer Research UK for 1 year. The actual starting salary offered will be based
-
• Uncertainty quantification around LLMs • Constrained optimal experimental design (active learning) • Combining models and combining data / Realistic simulation of clinical trials • Developing
-
with an interest in viral RNA-dependent RNA polymerases and its role in transcribing and replicating the viral RNA genome, as well as on the molecular mechanisms involved in the nuclear import, export
-
scientific techniques and experimental protocols, test hypotheses, and analyse data from various sources, refining working hypotheses as needed. You will lead the development of a research project, stay up
-
, attack surfaces, defensive mechanisms and related topics to the safe deployment of systems contain multiple LLM and VLM powered models. You will be responsible for Developing and implementing; capability
-
personal protection equipment (PPE). Your responsibilities will encompass developing new robotic benchmarking testing setup, hardware and controller of a robotic mechanical impactor, and data acquisition