379 research outputs found
A scanning gate microscope for cold atomic gases
We present a scanning probe microscopy technique for spatially resolving
transport in cold atomic gases, in close analogy with scanning gate microscopy
in semiconductor physics. The conductance of a quantum point contact connected
to two atomic reservoirs is measured in the presence of a tightly focused laser
beam acting as a local perturbation that can be precisely positioned in space.
By scanning its position and recording the subsequent variations of
conductance, we retrieve a high-resolution map of transport through a quantum
point contact. We demonstrate a spatial resolution comparable to the extent of
the transverse wave function of the atoms inside the channel, and a position
sensitivity below 10nm. Our measurements agree well with an analytical model
and ab-initio numerical simulations, allowing us to identify a regime in
transport where tunneling dominates over thermal effects. Our technique opens
new perspectives for the high-resolution observation and manipulation of cold
atomic gases.Comment: 5 + 6 pages, 4 + 5 figure
Evaluation of 3D surface scanners for skin documentation in forensic medicine: comparison of benchmark surfaces
BACKGROUND: Two 3D surface scanners using collimated light patterns were evaluated in a new application domain: to document details of surfaces similar to the ones encountered in forensic skin pathology. Since these scanners have not been specifically designed for forensic skin pathology, we tested their performance under practical constraints in an application domain that is to be considered new. METHODS: Two solid benchmark objects containing relevant features were used to compare two 3D surface scanners: the ATOS-II (GOM, Germany) and the QTSculptor (Polygon Technology, Germany). Both scanners were used to capture and process data within a limited amount of time, whereas point-and-click editing was not allowed. We conducted (a) a qualitative appreciation of setup, handling and resulting 3D data, (b) an experimental subjective evaluation of matching 3D data versus photos of benchmark object regions by a number of 12 judges who were forced to state their preference for either of the two scanners, and (c) a quantitative characterization of both 3D data sets comparing 220 single surface areas with the real benchmark objects in order to determine the recognition rate's possible dependency on feature size and geometry. RESULTS: The QTSculptor generated significantly better 3D data in both qualitative tests (a, b) that we had conducted, possibly because of a higher lateral point resolution; statistical evaluation (c) showed that the QTSculptor-generated data allowed the discrimination of features as little as 0.3 mm, whereas ATOS-II-generated data allowed for discrimination of features sized not smaller than 1.2 mm. CONCLUSION: It is particularly important to conduct specific benchmark tests if devices are brought into new application domains they were not specifically designed for; using a realistic test featuring forensic skin pathology features, QT Sculptor-generated data quantitatively exceeded manufacturer's specifications, whereas ATOS-II-generated data was within the limits of the manufacturer's specifications. When designing practically constrained specific tests, benchmark objects should be designed to contain features relevant for the application domain. As costs for 3D scanner hardware, software and data analysis can be hundred times as high compared to high-resolution digital photography equipment, independent user driven evaluation of such systems is paramount. INDEX TERMS: Forensic pathology, Rough surfaces, Surface Scanning, Technology Assessmen
Band and correlated insulators of cold fermions in a mesoscopic lattice
We investigate the transport properties of neutral, fermionic atoms passing
through a one-dimensional quantum wire containing a mesoscopic lattice. The
lattice is realized by projecting individually controlled, thin optical
barriers on top of a ballistic conductor. Building an increasingly longer
lattice, one site after another, we observe and characterize the emergence of a
band insulating phase, demonstrating control over quantum-coherent transport.
We explore the influence of atom-atom interactions and show that the insulating
state persists as contact interactions are tuned from moderately to strongly
attractive. Using bosonization and classical Monte-Carlo simulations we analyze
such a model of interacting fermions and find good qualitative agreement with
the data. The robustness of the insulating state supports the existence of a
Luther-Emery liquid in the one-dimensional wire. Our work realizes a tunable,
site-controlled lattice Fermi gas strongly coupled to reservoirs, which is an
ideal test bed for non-equilibrium many-body physics.Comment: 8 + 10 pages, 5 + 7 figure
Analysis of dynamic behavior of the back-toback High Voltage Direct Current link model as part of electrical power system
One of the main directions of the development of electric power systems is the introduction of technologies based on high-power semiconductor switches, such as FACTS devices and HVDC technologies. These systems effectively solve a number of urgent tasks of EPS, connected with asynchronous connection of EPS, transmission of electricity, improve local and systemic flexibility and reliability of EPS, increasing the capacity of network elements that contains a "weak" connection. However, the implementation and operation of mentioned technologies in the EPS determines the need for a wide range of analysis and research that can only be done with the help of mathematical modeling
A two-microphone noise reduction system for cochlear implant users with nearby microphones. Part II: Performance Evaluation
Users of cochlear implants (auditory aids, which stimulate the auditory nerve electrically at the inner ear) often suffer from poor speech understanding in noise. We evaluate a small (intermicrophone distance 7 mm) and computationally inexpensive adaptive noise reduction system suitable for behind-the-ear cochlear implant speech processors. The system is evaluated in simulated and real, anechoic and reverberant environments. Results from simulations show improvements of 3.4 to 9.3 dB in signal to noise ratio for rooms with realistic reverberation and more than 18 dB under anechoic conditions. Speech understanding in noise is measured in 6 adult cochlear implant users in a reverberant room, showing average improvements of 7.9–9.6 dB, when compared to a single omnidirectional microphone or 1.3–5.6 dB, when compared to a simple directional two-microphone device. Subjective evaluation in a cafeteria at lunchtime shows a preference of the cochlear implant users for the evaluated device in terms of speech understanding and sound quality
Quantized conductance through a spin-selective atomic point contact
We implement a microscopic spin filter for cold fermionic atoms in a quantum
point contact (QPC) and create fully spin-polarized currents while retaining
conductance quantization. Key to our scheme is a near-resonant optical tweezer
inducing a large effective Zeeman shift inside the QPC while its local
character limits dissipation. We observe a renormalization of this shift due to
interactions of a few atoms in the QPC. Our work represents the analog of an
actual spintronic device and paves the way to studying the interplay between
spin-splitting and interactions far from equilibrium.Comment: see also companion paper arXiv:1907.0643
Enterprise Architecture Planning: Analyses of Requirements from Practice and Research
Enterprise architecture management (EAM) has become an increasingly important topic in practice due to the growing complexity of organizations and their underlying IT. While there is a strong interest in Enterprise Architecture (EA) modeling, evaluation, and frameworks, a lack of knowledge remains in the research field of EA planning. We conducted a series of expert interviews on the topic of EA planning. From these interviews we were able to extract requirements for EA planning from practice as the foundation of our analyses. Additionally, we conducted a structured literature review to elicit requirements for EA planning from a research perspective. This paper combines the results of both the practitioner interviews and the literature review to emphasize the gaps between the two worlds. As a result, we identified that current research does not adequately address the pressing problems of EA planning in practice
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