395 research outputs found
Anaphe - OO Libraries and Tools for Data Analysis
The Anaphe project is an ongoing effort to provide an Object Oriented software environment for data analysis in HENP experiments. A range of commercial and public domain libraries is used to cover basic functionalities; on top of these libraries a set of HENP-specific C++ class libraries for histogram management, fitting, plotting and ntuple-like data analysis has been developed. In order to comply with the user requirements for a command-line driven tool, we have chosen to use a scripting language (Python) as the front-end for a data analysis tool. The loose coupling provided by the consequent use of (AIDA compliant) Abstract Interfaces for each component in combination with the use of shared libraries for their implementation provides an easy integration of existing libraries into modern scripting languages thus allowing for rapid application development. This integration is simplified even further using a specialised toolkit (SWIG) to create "shadow classes" for the Python language, which map the definitions of the Abstract Interfaces almost at a one-to-one level. This paper will give an overview of the architecture and design choices and will present the current status and future developments of the project
Deposition and patterning of magnetic atom trap lattices in FePt films with periods down to 200nm
We report on the epitaxial growth and the characterization of thin FePt films
and the subsequent patterning of magnetic lattice structures. These structures
can be used to trap ultracold atoms for quantum simulation experiments. We use
Molecular Beam Epitaxy (MBE) to deposit monocrystalline FePt films with a
thickness of 50 nm. The films are characterized with X-ray scattering and
Mossbauer spectroscopy to determine the long range order parameter and the hard
magnetic axes. A high monocrystalline fraction was measured as well as a strong
remanent magnetization of M = 900 kA/m and coercivity of 0.4 T. Using Electron
Beam Lithography (EBL) and argon ion milling we create lattice patterns with a
period down to 200 nm, and a resolution of 30 nm. The resulting lattices are
imaged in a Scanning Electron Microscope in cross-section created by a Focused
Ion Beam. A lattice with continuously varying lattice constant ranging from 5
micrometer down to 250nm has been created to show the wide range of length
scales that can now be created with this technique.Comment: 8 pages, 10 figure
SOT-MRAM 300mm integration for low power and ultrafast embedded memories
We demonstrate for the first time full-scale integration of top-pinned
perpendicular MTJ on 300 mm wafer using CMOS-compatible processes for
spin-orbit torque (SOT)-MRAM architectures. We show that 62 nm devices with a
W-based SOT underlayer have very large endurance (> 5x10^10), sub-ns switching
time of 210 ps, and operate with power as low as 300 pJ.Comment: presented at VLSI2018 session C8-
High temperature, low neutron cross-section highentropy alloys in the Nb-Ti-V-Zr system
High-entropy alloys (HEAs) with high melting points and low thermal neutron cross-section are promising new cladding materials for generation III+ and IV power reactors. In this study a recently developed high throughput computational screening tool Alloy Search and Predict (ASAP) has been used to identify the most likely candidate single-phase HEAs with low thermal neutron cross-section, from over a million four-element equimolar combinations. The selected NbTiVZr HEA was further studied by density functional theory (DFT) for moduli and lattice parameter, and by CALPHAD to predict phase formation with temperature. HEAs of NbTiVZrx (x = 0.5, 1, 2) were produced experimentally, with Zr varied as the dominant cross-section modifier. Contrary to previous experimental work, these HEAs were demonstrated to constitute a single-phase HEA system; a result obtained using a faster cooling rate following annealing at 1200 °C. However, the beta (BCC) matrix decomposed following aging at 700 °C, into a combination of nano-scale beta, alpha (HCP) and C15 Laves phases
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