190 computer-science-quantum-"https:"-"https:"-"https:"-"https:"-"https:"-"U.S" positions at NIST
Sort by
Refine Your Search
-
on the science that will underpin the development of the needed metrology to close this gap. The ideal candidates would have some understanding of high frequency electrical characterization, as well as substantial
-
certification of AM components. This NRC postdoctoral research opportunity builds on ongoing efforts at the Materials Measurement Science Division of the National Institute of Standards and Technology. The
-
the development of analytical methodologies, from both instrumentation and informatics standpoints, for the multifaceted and convoluted data that are obtained from complex biological, chemical, and forensic samples
-
NIST only participates in the February and August reviews. NIST has recently launched a program to develop high accuracy 3D thermal imaging and control using thermosensitive magnetic nano-objects
-
energetics, thermodynamics, kinetics of protein-DNA interactions, and related phenomena, and connecting these measurements to organism fitness. Computation for engineering biology, such as RNA circuits, in
-
fluxes of material (e.g., carbon) and energy through the community; and model microbial community dynamics and response to environmental perturbations. Engineering Communities: Candidates will be
-
NIST only participates in the February and August reviews. With the advent of the silicon drift energy dispersive X-ray detector (SDD/EDS), enhanced opportunities for high precision and accuracy measurements have opened up[1]. Unfortunately though, few people are making full use of the...
-
informatics developers in the public-private-academic Genome in a Bottle Consortium to develop methods to integrate short-, linked-, and long-read sequencing technologies to form benchmarks for somatic variant
-
of the constraints on sequencing (read length, depth), and informatics (e.g., database composition, algorithm biases). Proposals should address these challenges with strategies to evaluate the metagenomic
-
manufacturing of metal components through laser powder bed fusion have been increasingly embraced across a variety of industries and applications. But, broader adoption of this manufacturing technology—especially