Search results for " thermodynamic"

showing 10 items of 317 documents

Characterization of entropy measures against data loss: Application to EEG records

2012

This study is aimed at characterizing three signal entropy measures, Approximate Entropy (ApEn), Sample Entropy (SampEn) and Multiscale Entropy (MSE) over real EEG signals when a number of samples are randomly lost due to, for example, wireless data transmission. The experimental EEG database comprises two main signal groups: control EEGs and epileptic EEGs. Results show that both SampEn and ApEn enable a clear distinction between control and epileptic signals, but SampEn shows a more robust performance over a wide range of sample loss ratios. MSE exhibits a poor behavior for ratios over a 40% of sample loss. The EEG non-stationary and random trends are kept even when a great number of samp…

Computer scienceEntropyInformation Storage and RetrievalData lossElectroencephalographySensitivity and SpecificityApproximate entropyMultiscale entropyEntropy (classical thermodynamics)SeizuresStatisticsmedicineHumansEntropy (information theory)Entropy (energy dispersal)Entropy (arrow of time)medicine.diagnostic_testbusiness.industryEntropy (statistical thermodynamics)Reproducibility of ResultsElectroencephalographyPattern recognitionSample entropyArtificial intelligenceArtifactsbusinessAlgorithmsEntropy (order and disorder)2011 Annual International Conference of the IEEE Engineering in Medicine and Biology Society
researchProduct

Quantification and automatized adaptive detection of in vivo and in vitro neuronal bursts based on signal complexity.

2015

In this paper, we propose employing entropy values to quantify action potential bursts in electrophysiological measurements from the brain and neuronal cultures. Conventionally in the electrophysiological signal analysis, bursts are quantified by means of conventional measures such as their durations, and number of spikes in bursts. Here our main aim is to device metrics for burst quantification to provide for enhanced burst characterization. Entropy is a widely employed measure to quantify regularity/complexity of time series. Specifically, we investigate the applicability and differences of spectral entropy and sample entropy in the quantification of bursts in in vivo rat hippocampal meas…

Computer scienceQuantitative Biology::Tissues and OrgansAstrophysics::High Energy Astrophysical PhenomenaEntropyCell Culture TechniquesElectrophysiological PhenomenaAction Potentialsta3112HippocampusEntropy (classical thermodynamics)In vivoEntropy (information theory)AnimalsEntropy (energy dispersal)Rats WistarEntropy (arrow of time)ta217NeuronsSignal processingQuantitative Biology::Neurons and Cognitionta213Entropy (statistical thermodynamics)Signal Processing Computer-Assistedadaptive detectionelectrophysiological signal analysisquantificationneuronal burstsElectrophysiological PhenomenaSample entropyElectrophysiologyElectrophysiologyMicroelectrodeBiological systemNeuroscienceMicroelectrodesEntropy (order and disorder)Annual International Conference of the IEEE Engineering in Medicine and Biology Society. IEEE Engineering in Medicine and Biology Society. Annual International Conference
researchProduct

Ab Initio Thermodynamics of Oxygen Vacancies and Zinc Interstitials in ZnO.

2015

ZnO is an important wide band gap semiconductor with potential application in various optoelectronic devices. In the current contribution, we explore the thermodynamics of oxygen vacancies and zinc interstitials in ZnO from first-principles phonon calculations. Formation enthalpies are evaluated using hybrid DFT calculations, and phonons are addressed using the PBE and the PBE+U functionals. The phonon contribution to the entropy is most dominant for oxygen vacancies, and their Gibbs formation energy increases when including phonons. Finally, inclusion of phonons decreases the Gibbs formation energy difference of the two defects and is therefore important when predicting their equilibrium c…

Condensed Matter::OtherPhononAb initioWide-bandgap semiconductorchemistry.chemical_elementThermodynamicsZincOxygenOxygen vacancyCondensed Matter::Materials ScienceEntropy (classical thermodynamics)chemistryCondensed Matter::SuperconductivityPhysics::Atomic and Molecular ClustersGeneral Materials SciencePhysical and Theoretical ChemistryThe journal of physical chemistry letters
researchProduct

Probabilities, States, Statistics

2016

In this chapter we clarify some important notions which are relevant in a statistical theory of heat: The definitions of probability measure, and of thermodynamic states are illustrated, successively, by the classical Maxwell-Boltzmann statistics, by Fermi-Dirac statistics and by Bose-Einstein statistics. We discuss observables and their eigenvalue spectrum as well as entropy and we calculate these quantities for some examples. The chapter closes with a comparison of statistical descriptions of classical and quantum gases.

Condensed Matter::Quantum GasesBinary entropy functionEntropy (statistical thermodynamics)StatisticsLaw of total probabilityObservableBlack-body radiationStatistical theoryEigenvalues and eigenvectorsMathematicsProbability measure
researchProduct

Superfluid density in metastable 3He4He mixtures

1990

Abstract We havestudied superfluld 3He4He mixtures quenched into nonequilibrium states inside the miscibility gap by means of second sound . From the results for the second sound velocity we conclude that the superfluid density in the metastable state is well described by extrapolation from equilibrium values. The boundary of the metastable region, where nucleation processes set in rapidly, is reflected in a sharp increase of the second sound attenuation.

Condensed Matter::Quantum GasesMaterials scienceCondensed matter physicsSpinodal decompositionAttenuationNucleationExtrapolationNon-equilibrium thermodynamicsCondensed Matter PhysicsElectronic Optical and Magnetic MaterialsSuperfluidityMetastabilitySecond soundddc:530Electrical and Electronic EngineeringPhysica B: Condensed Matter
researchProduct

Nonequilibrium effective temperature of superfluid vortex tangle

2006

An effective nonequilibrium temperature in counterflow superfluid turbulence is proposed, as a parameter characterizing a canonical probability distribution function of vortex orientation, and relating the diffusion coefficient of vortex lines to the vortex friction through an Einstein relation.

Condensed Matter::Quantum GasesPhysicsCondensed matter physicsNonequilibrium temperatureTurbulent superfluidsCondensed Matter::OtherTurbulenceGeneral Physics and AstronomyNon-equilibrium thermodynamicsProbability density functionVortexSuperfluidityDistribution functionCondensed Matter::SuperconductivityEinstein relationDiffusion (business)Settore MAT/07 - Fisica Matematica
researchProduct

Nanoscale Heat Engine Beyond the Carnot Limit

2013

We consider a quantum Otto cycle for a time-dependent harmonic oscillator coupled to a squeezed thermal reservoir. We show that the efficiency at maximum power increases with the degree of squeezing, surpassing the standard Carnot limit and approaching unity exponentially for large squeezing parameters. We further propose an experimental scheme to implement such a model system by using a single trapped ion in a linear Paul trap with special geometry. Our analytical investigations are supported by Monte Carlo simulations that demonstrate the feasibility of our proposal. For realistic trap parameters, an increase of the efficiency at maximum power of up to a factor of 4 is reached, largely ex…

Condensed Matter::Quantum GasesPhysicsThermal reservoirMaximum power principleMonte Carlo methodGeneral Physics and AstronomyMechanicssymbols.namesakeQuantum mechanicssymbolsOtto cycleCarnot cycleQuantum thermodynamicsHarmonic oscillatorHeat enginePhysical Review Letters
researchProduct

Refrigeration bound of heat-producing cylinders by superfluid helium

2019

In this paper we go ahead in our studies on refrigeration of nanosystems by superfluid helium, as an appealing subject for future applications to computers or astronautical precision nanodevices. We first recall the effective thermal conductivity in laminar counterflow superfluid helium through arrays of mutually parallel cylinders and we discuss the conditions for the appearance of quantum turbulence around the heat-producing cylinders. We then consider the cooling of an array of heat-producing cylindrical nanosystems by means of superfluid-helium counterflow. We discuss the upper bound on heat removal set by avoidance of quantum turbulence and avoidance of phase transition to normal He I,…

Condensed Matter::Quantum GasesPhysics::Fluid Dynamicsthermal conductivity liquid helium quantum turbulence micropores quantized vortices computer refrigeration.Mathematics; PhysicsRefrigerationExtended Thermodynamicssuperfluid heliumPhysics::Atomic and Molecular Clusterslcsh:Science (General)Settore MAT/07 - Fisica MatematicaMSC: 76A25 76F99 80A99.lcsh:Q1-390
researchProduct

The ACRIDICON-CHUVA campaign: Studying tropical deep convective clouds and precipitation over Amazonia using the new German research aircraft HALO

2016

Abstract Between 1 September and 4 October 2014, a combined airborne and ground-based measurement campaign was conducted to study tropical deep convective clouds over the Brazilian Amazon rain forest. The new German research aircraft, High Altitude and Long Range Research Aircraft (HALO), a modified Gulfstream G550, and extensive ground-based instrumentation were deployed in and near Manaus (State of Amazonas). The campaign was part of the German–Brazilian Aerosol, Cloud, Precipitation, and Radiation Interactions and Dynamics of Convective Cloud Systems–Cloud Processes of the Main Precipitation Systems in Brazil: A Contribution to Cloud Resolving Modeling and to the GPM (Global Precipitatio…

ConvectionAtmospheric ScienceACRIDICON–CHUVA010504 meteorology & atmospheric sciencesMeteorologyResearch AircraftCloud computingPrecipitation Formation010502 geochemistry & geophysics01 natural sciencesMess- und Sensortechnik OPPrecipitation (meteorology)tropical deep convective cloudsRemote SensingHaloAmazoniaCloudsRange (aeronautics)ddc:550Radiative transferPrecipitation0105 earth and related environmental sciencesLidarAnthropogenic AerosolsVerkehrsmeteorologiebusiness.industryAmazon rainforestAtmosphärische SpurenstoffeDeep Convective CloudsProjektmanagement Flugexperimente OPAerosolAtmospheric ThermodynamicsEnvironmental sciencebusinessCloud Life CycleGlobal Precipitation Measurement
researchProduct

Zn(II)-alloferon complexes - Similar sequence, different coordination modes, no antibacterial activity.

2020

Often, in the search for a highly defined scientific phenomenon, a different one becomes apparent. This was also the case of this work, in the scope of which we planned to search for metal-enhanced, novel antibacterial/ antifungal compounds. Instead, we denied the existence of such and revealed the details of the bioinorganic chemistry of Zn(II)-alloferon complexes. Zinc(II) complexes of alloferon 1 and 2, ligands with a sequential difference of one amino acid only, show a substantially different coordination pattern at physiological pH. In the case of Zn(II)-alloferon 1 species, a histamine-like binding mode is observed (N-terminal amine and imidazole of His-1) and the coordination sphere …

Coordination sphereAlloferon; Metal-antimicrobial peptide complex; Metal-peptide thermodynamics; Zinc(II)StereochemistryProton Magnetic Resonance Spectroscopychemistry.chemical_elementZincMicrobial Sensitivity Tests010402 general chemistryLigands01 natural sciencesBiochemistryMass SpectrometryInorganic ChemistryAlloferonchemistry.chemical_compoundStructure-Activity RelationshipCoordination ComplexesImidazoleMetal-antimicrobial peptide complexHistidineAmino Acid Sequencechemistry.chemical_classificationMetal-peptide thermodynamics010405 organic chemistryBioinorganic chemistryZinc(II)0104 chemical sciencesAmino acidAnti-Bacterial AgentsZincchemistryThermodynamicsChemical stabilityAmine gas treatingAntibacterial activityPeptidesJournal of inorganic biochemistry
researchProduct