38 research outputs found
Performance analysis of an optically pumped magnetometer in Earthâs magnetic field
We experimentally investigate the influence of the orientation of optically pumped magnetometers in Earthâs magnetic field. We focus our analysis to an operational mode that promises femtotesla field resolutions at such field strengths. For this so-called light-shift dispersed Mz (LSD-Mz) regime, we focus on the key parameters defining its performance. That are the reconstructed Larmor frequency, the transfer function between output signal and magnetic field amplitude as well as the shot noise limited field resolution. We demonstrate that due to the use of two well balanced laser beams for optical pumping with different helicities the heading error as well as the field sensitivity of a detector both are only weakly influenced by the heading in a large orientation angle range
An optically pumped magnetometer working in the light-shift dispersed Mz mode
We present an optically pumped magnetometer working in a new operational modeâ the light-shift dispersed Mz (LSD-Mz) mode. It is realized combining various features; (1) high power off-resonant optical pumping; (2) Mz configuration, where pumping light and magnetic field of interest are oriented parallel to each other; (3) use of small alkali metal vapor cells of identical properties in integrated array structures, where two such cells are pumped by circularly polarized light of opposite helicity; and (4) subtraction of the Mz signals of these two cells. The LSD-Mz magnetometerâs performance depends on the inherent and very complex interplay of input parameters. In order to find the configuration of optimal magnetometer resolution, a sensitivity analysis of the input parameters by means of Latin Hypercube Sampling was carried out. The resulting datasets of the multi-dimensional parameter space exploration were assessed by a subsequent physically reasonable interpretation. Finally, the best shot-noise limited magnetic field resolution was determined within that parameter space. As the result, using two 50 mm3 integrated vapor cells a magnetic ïŹeld resolution below 10 fT/âHz at Earthâs magnetic ïŹeld strength is possible
Study of microwave resonances induced by bias lines of shunted Josephson junctions
Bias lines routed over a ground plane naturally form microstrip lines
associated with the presence of a capacitance. This can lead to unwanted
resonances when coupled to Josephson junctions. This work presents an
electrical model of a shunted Josephson junction with its bias lines and pads,
fabricated with the 1 kA/cm RSFQ niobium process of the FLUXONICS Foundry.
A compact LCL T-model is used to simulate the microwave behavior of the bias
line, predict resonances and design resonance-free superconducting circuits.
The I-V characteristics of three shunted Josephson junctions have been obtained
from time-domain simulations done with JSIM and show a good match with the
global behavior and experimentally observed resonance at 230 GHz, measured at
4.2 K. The influence of the position and value of a series resistor placed on
bias lines is studied to damp unwanted resonances at the junction.Comment: Presented at ISEC2019 conferenc
Suppression of spin-exchange relaxation in tilted magnetic fields within the geophysical range
We present a detailed experimental and theoretical study on the relaxation of spin coherence due to the spin-exchange mechanism arising in the electronic ground states of alkali-metal vapor atoms. As opposed to the well-explored formation of a stretched state in a longitudinal geometry (magnetic field parallel to the laser propagation direction) we employ adapted hyperfine-selective optical pumping in order to suppress spin-exchange relaxation. By comparing measurements of the intrinsic relaxation rate of the spin coherence in the ground state of cesium atoms with detailed density-matrix simulations we show that the relaxation due to spin-exchange collisions can be reduced substantially even in a tilted magnetic field of geomagnetic strength, the major application case of scalar magnetic surveying. This explains the observed striking improvement in sensitivity and further deepens the understanding of the light- narrowed Mx magnetometer, which was presented recently. Additionally, new avenues for investigating the dynamics in alkali-metal atoms governed by the spin-exchange interaction and interacting with arbitrary external fields open up
Carrier mobility in semiconductors at very low temperatures
Carrier mobilities and concentrations were measured for different p- and n-type silicon materials in the temperature range 0.3â300 K. Simulations show that experimentally determined carrier mobilities are best described in this temperature range by Klaassenâs model. Freeze-out reduces the carrier concentration with decreasing temperature. Freeze-out, however, depends on the dopant type and initial concentration. Semi-classical calculations are useful only for temperatures above 100 K. Otherwise quantum mechanical calculations are require
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OPM magnetorelaxometry in the presence of a DC bias field
Spatial quantitative information about magnetic nanoparticle (MNP) distributions is a prerequisite for biomedical applications like magnetic hyperthermia and magnetic drug targeting. This information can be gathered by means of magnetorelaxometry (MRX) imaging, where the relaxation of previously aligned MNPâs magnetic moments is measured by sensitive magnetometers and an inverse problem is solved. To remove or minimize the magnetic shielding in which MRX imaging is carried out today, the knowledge of the influence of background magnetic fields on the MNPâs relaxation is a prerequisite. We show MRX measurements using an intensity-modulated optically pumped magnetometer (OPM) in background magnetic fields of up to 100ÎŒT. We show that the relaxation parameters alter or may be intentionally altered significantly by applying static fields parallel or antiparallel to the MNPâs alignment direction. Further, not only the relaxation process of the MNPâs magnetic moments could be measured with OPM, but also their alignment due to the MRX excitation field. © 2020, The Author(s)
Numerical analysis of a folded superconducting coaxial shield for cryogenic current comparators
This paper presents a new shield configuration for cryogenic current
comparators (CCCs), namely the folded coaxial geometry. An analytical model
describing its shielding performance is first developed, and then validated by
means of finite element simulations. Thanks to this model, the fundamental
properties of the new shield are highlighted. Additionally, this paper compares
the volumetric performance of the folded coaxial shield to the one of a ring
shield, the latter being installed in many CCCs for measuring particle beam
currents in accelerator facilities.Comment: 13 pages, 15 figure
High-Resolution Direct Push Sensing in Wetland GeoarchaeologyâFirst Traces of Off-Site Construction Activities at the Fossa Carolina
Wetland environments, with their excellent conservation conditions, provide geoarchaeological archives of past human activities. However, the subsurface soil is difficult to access due to high groundwater tables, unstable sediments, and the high cost of excavation. In this study, we present a ground-based non- and minimal-invasive prospection concept adapted to the conditions of wetlands. We investigated the Fossa Carolina in South Germany, a canal that was intended in 792/793 AD by Charlemagne to bridge the Central European Watershed. Although the resulting Carolingian banks and the fairway with wooden revetments are very imposing, archaeological traces of off-site construction activities have not been identified hitherto. Based on a geophysically surveyed intensive linear magnetic anomaly parallel to the Carolingian canal, we aimed to prove potential off-site traces of Carolingian construction activities. In this context, we built up a high-resolution cross-section using highly depth-accurate direct push sensing and ground-truthing. Our results showed the exact geometry of the canal and the former banks. Thus, the magnetic mass anomaly could be clearly located between the buried organic-rich topsoil and the Carolingian banks. The thermoluminescence dating showed that the position of the magnetic mass anomaly reflected Carolingian activities during the construction phases, specifically due to heat exposure. Moreover, we found hints of the groundwater supply to the 5-metre wide navigable fairway