-
chromatography, nuclear magnetic resonance, small angle neutron and x-ray scattering, quasi-static mechanical testing, and high-rate impact testing. key words Polymer networks and gels; Polymer; Mechanical testing
-
must be solved in order to fully exploit Johnson noise as a primary thermometer with high accuracy. Opportunities exist for experimental investigations in Johnson Noise Thermometry (JNT) with advanced
-
results. We are also pursuing advanced data analysis techniques and development of neutron instrumentation and sample environments in support of autonomous experimentation and high-throughput measurement
-
. These new states have a variety of applications, including linear optical quantum computing, quantum metrology (e.g., Heisenberg limited interferometry), and fundamental physics (loop-hole free Bell
-
of novel optical methods for nanoscale dimensional measurements using the NIST 193 nm Microscope: a newly upgraded, custom-built, world-class high-magnification optical imaging platform optimized
-
are developing microfluidics to measure material properties and structure. Protein, polymer and surfactant solutions and suspensions and emulsions are being characterized using computer-controlled microfluidic
-
RAP opportunity at National Institute of Standards and Technology NIST Mathematical Modeling and Simulation Location Information Technology Laboratory, Applied and Computational Mathematics
-
Division, where we develop instrumentation beyond the state of the art. Our research program offers a supportive, highly-multidisciplinary environment coupled with outstanding experimental resources
-
conditions. NIST Boulder has one of the few facilities in the world capable of in situ testing in a high-pressure gaseous environment. The equipment also has a great deal of flexibility in the types
-
of naturally-occurring ecologies and (2) perform spatially and temporally resolved measurements of the cellular organization, microbial behavior, and environmental conditions within these engineered systems