Sort by
Refine Your Search
-
Description We work with scientists in other NIST laboratories to develop tools for computer simulation and analysis of magnetic systems at the nanometer scale. Model verification is achieved by comparison
-
variables. Computer-controlled equipment is available for alternating-current magnetic-susceptibility measurements as a function of frequency, temperature, and magnetic field. An automated vibrating sample
-
-nanowire single-photon detectors for applications in quantum information processing, loophole-free Bell measurements, and sources of quantum randomness. References Shainline J, et al, Optics Express 25 10322
-
; Microelectronics; Machine learning; Data informatics; Physics; Terahertz; Metrology; Chemistry; Materials engineering;
-
designs. In addition to fabrication and characterization of these measurement tools, we also develop new readout schemes, signal and data processing, control systems, and biomimetic surfaces to improve
-
and Raman spectroscopy are used in some cases. Results are often compared with predictions of first-principles calculations. Information is obtained on interatomic and intermolecular forces; crystal
-
Description We are studying the mechanism by which DNA partitions into and threads through single nanometer-scale pores. This experimental and theoretical effort focuses on understanding how genetic information
-
electromagnetic-induced transparency should be observable. key words Coherent control; Quantum dots; Quantum information; Quantum optics; Eligibility citizenship Open to U.S. citizens level Open to Postdoctoral
-
three-dimensional structure within a biofilm would provide information and insight into biofilm behaviors. This research opportunity involves using advanced imaging techniques coupled with quantitative
-
; Precision medicine; Data science; Artificial intelligence