Search results for "Physik"

showing 10 items of 293 documents

A Monte Carlo Study of Knots in Long Double-Stranded DNA Chains.

2016

We determine knotting probabilities and typical sizes of knots in double-stranded DNA for chains of up to half a million base pairs with computer simulations of a coarse-grained bead-stick model: Single trefoil knots and composite knots which include at least one trefoil as a prime factor are shown to be common in DNA chains exceeding 250,000 base pairs, assuming physiologically relevant salt conditions. The analysis is motivated by the emergence of DNA nanopore sequencing technology, as knots are a potential cause of erroneous nucleotide reads in nanopore sequencing devices and may severely limit read lengths in the foreseeable future. Even though our coarse-grained model is only based on …

Quantitative Biology::Biomoleculessurgical procedures operativestomatognathic systemlcsh:Biology (General)530 Physicsfood and beverages530 PhysikMathematics::Geometric Topologylcsh:QH301-705.5PLoS Computational Biology
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Fiberized diamond-based vector magnetometers

2021

Frontiers 2, 732748 (2021). doi:10.3389/fphot.2021.732748

Quantum Physics530 PhysicsComputer Science::Networking and Internet Architectureddc:300FOS: Physical sciencesGeneral MedicineQuantum Physics (quant-ph)530 Physik300
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Improved Bounds on Ultralight Scalar Dark Matter in the Radio-Frequency Range

2022

We present a search for fundamental constant oscillations in the range $20$~kHz-$100$ MHz, that may arise within models for ultralight dark matter (UDM). Using two independent, significantly upgraded optical-spectroscopy apparatus, we achieve up to $\times$1000 greater sensitivity in the search relative to previous work. We report no observation of UDM and thus constrain respective couplings to electrons and photons within the investigated UDM particle mass range $8\cdot 10^{-11}-4\cdot 10^{-7}$ eV. The constraints significantly exceed previously set bounds, and as we show, may surpass in future experiments those provided by equivalence-principle experiments in a specific case regarding the…

Quantum PhysicsCosmology and Nongalactic Astrophysics (astro-ph.CO)530 PhysicsAtomic Physics (physics.atom-ph)FOS: Physical sciencesGeneral Physics and Astronomy530 Physik530Physics - Atomic PhysicsHigh Energy Physics - PhenomenologyHigh Energy Physics - Phenomenology (hep-ph)ddc:530Quantum Physics (quant-ph)Astrophysics - Cosmology and Nongalactic AstrophysicsPhysical Review Letters
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Performance of quantum phase gates with cold trapped atoms

2003

We examine the performance of a quantum phase gate implemented with cold neutral atoms in microtraps, when anharmonic traps are employed and the effects of finite temperature are also taken into account. Both the anharmonicity and the temperature are found to pose limitations to the performance of the quantum gate. We present a quantitative analysis of the problem and show that the phase gate has a high quality performance for the experimental values that are presently or in the near future achievable in the laboratory.

Quantum PhysicsFOS: Physical sciencesInstitut für Physik und AstronomiePhysics::Atomic PhysicsQuantum Physics (quant-ph)
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Current-induced domain wall motion in nanoscale ferromagnetic elements

2011

The manipulation of a magnetic domain wall (DW) by a spin polarized current in ferromagnetic nanowires has attracted tremendous interest during the last years due to fundamental questions in the fields of spin dependent transport phenomena and magnetization dynamics but also due to promising applications, such as DW based magnetic memory concepts and logic devices. We comprehensively review recent developments in the field of geometrically confined domain walls and in particular current induced DW dynamics. We focus on the influence of the magnetic and electronic transport properties of the materials on the spin transfer effect in DWs. After considering the different DW structures in ferrom…

Ring StructuresAcoustics and Ultrasonics02 engineering and technology01 natural sciencesThreshold Current010305 fluids & plasmasGeneral Materials SciencePermalloy NanowiresAnisotropyComputer Science::DatabasesSpin-½electrical [Condensed matter]PhysicsSpin polarizationCondensed matter physicsGiant Magnetoresistance021001 nanoscience & nanotechnologyCondensed Matter PhysicsSurfaces Coatings and FilmsElectronic Optical and Magnetic MaterialsDynamicsDomain wall (magnetism)magnetic and optical SurfacesMechanics of MaterialsCharge carrierThin0210 nano-technologyCurrent PulsesAngular momentumCurrent-induced domain wall motionMagnetic domain530 PhysicsNanowirePerpendicular Magnetic-AnisotropyGiant magnetoresistanceMagnetizationMemory0103 physical sciencesddc:530010306 general physicsMagnetization dynamicsNanowiresX-RaysMechanical EngineeringPhase-DiagramSpin engineering530 PhysikDomain Wallinterfaces and thin filmsFerromagnetismTorqueShift RegisterIon IrradiationNanoscale science and low-D systemsSpin-Polarized CurrentSpin Torque
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The early B-type star Rho Oph A is an X-ray lighthouse

2017

We present the results of a 140 ks XMM-Newton observation of the B2 star $\rho$ Ophiuchi A. The star has exhibited strong X-ray variability: a cusp-shaped increase of rate, similar to that which we partially observed in 2013, and a bright flare. These events are separated in time by about 104 ks, which likely corresponds to the rotational period of the star (1.2 days). Time resolved spectroscopy of the X-ray spectra shows that the first event is caused by an increase of the plasma emission measure, while the second increase of rate is a major flare with temperatures in excess of 60 MK ($kT\sim5$ keV). From the analysis of its rise, we infer a magnetic field of $\ge300$ G and a size of the f…

Rotation periodStars: activity010504 meteorology & atmospheric sciencesMagnetismAstrophysics::High Energy Astrophysical PhenomenaFOS: Physical sciencesHot spot (veterinary medicine)Astrophysics01 natural sciencesSpectral linelaw.inventionStars: early-typelaw0103 physical sciencesAstrophysics::Solar and Stellar AstrophysicsX-rays: star010303 astronomy & astrophysicsSolar and Stellar Astrophysics (astro-ph.SR)Astrophysics::Galaxy Astrophysics0105 earth and related environmental sciencesPhysicsHigh Energy Astrophysical Phenomena (astro-ph.HE)Stars: magnetic fieldStarspotStars: individual: Rho OphiuchiInstitut für Physik und AstronomieAstronomy and AstrophysicsRadiusAstronomy and AstrophysicAstrophysics - Solar and Stellar AstrophysicsSpace and Planetary ScienceStarspotAstrophysics::Earth and Planetary AstrophysicsLow MassAstrophysics - High Energy Astrophysical PhenomenaFlare
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Fast apparent oscillations of fundamental constants

2019

Precision spectroscopy of atoms and molecules allows one to search for and to put stringent limits on the variation of fundamental constants. These experiments are typically interpreted in terms of variations of the fine structure constant $\alpha$ and the electron to proton mass ratio $\mu=m_e/m_p$. Atomic spectroscopy is usually less sensitive to other fundamental constants, unless the hyperfine structure of atomic levels is studied. However, the number of possible dimensionless constants increases when we allow for fast variations of the constants, where "fast" is determined by the time scale of the response of the studied species or experimental apparatus used. In this case, the relevan…

Scale (ratio)Atomic Physics (physics.atom-ph)530 PhysicsFOS: Physical sciencesGeneral Physics and Astronomy02 engineering and technologyAtomic spectroscopyElectron53001 natural sciencesPhysics - Atomic PhysicsHigh Energy Physics - Phenomenology (hep-ph)0103 physical sciencesddc:530Physics::Atomic Physics010306 general physicsHyperfine structurePhysicsHigh Energy Physics::PhenomenologyAtoms in moleculesFine-structure constantSense (electronics)021001 nanoscience & nanotechnology530 PhysikHigh Energy Physics - PhenomenologyAtomic physics0210 nano-technologyDimensionless quantity
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The classical two-dimensional Heisenberg model revisited: An $SU(2)$-symmetric tensor network study

2021

The classical Heisenberg model in two spatial dimensions constitutes one of the most paradigmatic spin models, taking an important role in statistical and condensed matter physics to understand magnetism. Still, despite its paradigmatic character and the widely accepted ban of a (continuous) spontaneous symmetry breaking, controversies remain whether the model exhibits a phase transition at finite temperature. Importantly, the model can be interpreted as a lattice discretization of the $O(3)$ non-linear sigma model in $1+1$ dimensions, one of the simplest quantum field theories encompassing crucial features of celebrated higher-dimensional ones (like quantum chromodynamics in $3+1$ dimensio…

Sigma modelSpontaneous symmetry breakingQC1-999Lattice (group)General Physics and AstronomyFOS: Physical sciencesClassical Heisenberg modelQuantum Materials53001 natural sciences010305 fluids & plasmasTheoretical physicsHigh Energy Physics - Lattice0103 physical sciencesSymmetric tensorTensorQuantum field theory010306 general physicsclassical Heisenberg modelCondensed Matter - Statistical MechanicsPhysicsQuantum PhysicsStatistical Mechanics (cond-mat.stat-mech)Heisenberg modelPhysics500 Naturwissenschaften und Mathematik::530 Physik::530 PhysikHigh Energy Physics - Lattice (hep-lat)magnetismstatistical and condensed matter physicsQuantum Physics (quant-ph)
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Arbitrary Phase Access for Stable Fiber Interferometers

2021

Well-controlled yet practical systems that give access to interference effects are critical for established and new functionalities in ultrafast signal processing, quantum photonics, optical coherence characterization, etc. Optical fiber systems constitute a central platform for such technologies. However, harnessing optical interference in a versatile and stable manner remains technologically costly and challenging. Here, degrees of freedom native to optical fibers, i.e., polarization and frequency, are used to demonstrate an easily deployable technique for the retrieval and stabilization of the relative phase in fiber interferometric systems. The scheme gives access (without intricate dev…

Signal processingPhase (waves)Physics::Opticsquantum photonics01 natural sciencesDegrees of freedom (mechanics)Quantum entanglement010309 opticsOpticsinterferometers0103 physical sciencesAstronomical interferometerddc:530Optical fibersFiber interferometersFiber010306 general physicsOptical reference signalsPhysicsPhotonsUltrafast signal processingInterference effectsbusiness.industryOptical fiber systemsReference signalsSettore ING-INF/02 - Campi ElettromagneticiCondensed Matter PhysicsParticle beamsAtomic and Molecular Physics and OpticsElectronic Optical and Magnetic MaterialsSingle-photon detectorscoherent signal processingDewey Decimal Classification::500 | Naturwissenschaften::530 | Physikinterferometers coherent signal processing quantum photonicsbusinessInterferometric systemLaser & Photonics Reviews
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2D Slab Models of Nanotubes Based on Tetragonal TiO2 Structures: Validation over a Diameter Range

2021

This research was funded by the M-ERA.NET project ?Multiscale computer modelling, synthesis and rational design of photo(electro)catalysts for efficient visible-light-driven seawater splitting? (CatWatSplit). Institute of Solid State Physics, University of Latvia as the Center of Excel-lence has received funding from the European Union?s Horizon 2020 Framework Program H2020-WIDESPREAD-01-2016-2017-TeamingPhase2 under Grant Agreement No. 739508, project CAMART2.

Slab modelAnataseWork (thermodynamics)NanotubeWater adsorptionMaterials scienceGeneral Chemical EngineeringComputationChemieAb initio02 engineering and technology010402 general chemistryDFTwater splitting7. Clean energy01 natural sciencesArticlenanotubesNanomaterialsTetragonal crystal systemLattice constantslab modelTiO2General Materials ScienceWater splittingQD1-999water adsorptionNanotubesPhysik (inkl. Astronomie)021001 nanoscience & nanotechnology0104 chemical sciencesComputational physicsChemistry:NATURAL SCIENCES [Research Subject Categories]0210 nano-technologyTiO<sub>2</sub>Nanomaterials
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