Sort by
Refine Your Search
-
Employer
- Susquehanna International Group
- University of Nebraska–Lincoln
- The University of Iowa
- California Institute of Technology
- Duke University
- Georgetown University
- Indiana University
- Nature Careers
- Radix Trading LLC
- The Ohio State University
- University of California, Berkeley
- University of Maryland
- University of Pittsburgh
- University of Southern California
- University of Southern California (USC)
- University of Texas at El Paso
- University of Utah
- 7 more »
- « less
-
Field
-
of hematopoietic stem cells. We are particularly interested in studying the processes and cellular signaling that lead to the emergence, maturation and expansion of stem cells in murine embryonic development and in
-
regulation. We explore how mitochondria influence systemic physiology through novel signaling pathways, including mitochondrial-encoded peptides, and how these pathways impact diseases such as Alzheimer’s
-
mitochondria influence systemic physiology through novel signaling pathways, including mitochondrial-encoded peptides, and how these pathways impact diseases such as Alzheimers, metabolic syndrome, and chronic
-
, including large-scale data analysis, alpha signal research, and strategy performance enhancement. While there is some overlap with the Quantitative Systematic Trader role, Quantitative Researchers typically
-
measurement, four-point probe for resistivity, deep-level transient spectroscopy, and a semiconductor parameter analyzer. Job Description: The Department of Electrical and Computer Engineering (ECE
-
data analysis, alpha signal research, and strategy performance enhancement. While there is some overlap with the Quantitative Systematic Trader role, Quantitative Researchers typically focus more on
-
, natural language understanding, and more. Your work will directly influence our trading strategies and decision-making processes. This is a unique opportunity to work at the intersection of cutting-edge
-
Description Applicants will be involved in NIH-sponsored research to address the impact of surgical trauma (orthopedic surgery) on the blood-brain barrier, glia activation, and neurodegeneration. Different
-
language understanding, and more. Your work will directly influence our trading strategies and decision-making processes. This is a unique opportunity to work at the intersection of cutting-edge research and real-world
-
computational chemistry and biochemistry studies as directed by Prof. William Goddard within the Materials and Process Simulation Center in the Division of Chemistry and Chemical Engineering Essential Job Duties