Search results for " insulator"

showing 10 items of 148 documents

A large-energy-gap oxide topological insulator based on the superconductor BaBiO3

2013

Mixed-valent perovskite oxides based on BaBiO3 (BBO) are, like cuperates, well-known high-Tc superconductors. Recent ab inito calculations have assigned the high-Tc superconductivity to a correlation-enhanced electron--phonon coupling mechanism, stimulating the prediction and synthesis of new superconductor candidates among mixed-valent thallium perovskites. Existing superconductivity has meant that research has mainly focused on hole-doped compounds, leaving electron-doped compounds relatively unexplored. Here we demonstrate through ab inito calculations that BBO emerges as a topological insulator (TI) in the electron-doped region, where the spin-orbit coupling (SOC) effect is significant.…

Band gapTopological degeneracyAb initioOxideGeneral Physics and AstronomyFOS: Physical sciences02 engineering and technology01 natural sciencesSuperconductivity (cond-mat.supr-con)Condensed Matter::Materials Sciencechemistry.chemical_compoundCondensed Matter::Superconductivity0103 physical sciencesTopological orderPhysics::Chemical Physics010306 general physicsCondensed Matter::Quantum GasesPhysicsSuperconductivityCondensed Matter - Materials ScienceCondensed matter physicsCondensed Matter - SuperconductivityDopingMaterials Science (cond-mat.mtrl-sci)021001 nanoscience & nanotechnologychemistryTopological insulatorCondensed Matter::Strongly Correlated Electrons0210 nano-technologyNature Physics
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Unraveling materials Berry curvature and Chern numbers from real-time evolution of Bloch states

2019

Materials can be classified by the topological character of their electronic structure and, in this perspective, global attributes immune to local deformations have been discussed in terms of Berry curvature and Chern numbers. Except for instructional simple models, linear response theories have been ubiquitously employed in calculations of topological properties of real materials. Here we propose a completely different and versatile approach to get the topological characteristics of materials by calculating physical observables from the real-time evolving Bloch states: the cell-averaged current density reveals the anomalous velocities whose integration leads to the conductivity quantum. Re…

Berry curvatureFOS: Physical sciencesSpin Hall effectquantum spin Hall effect02 engineering and technologyElectronic structure01 natural sciencesQuantumSettore FIS/03 - Fisica Della MateriaTheoretical physicsQuantum spin Hall effectMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciencesTime-dependent density functional theory010306 general physicsSpin (physics)QuantumTopological insulatorPhysicstopological insulatorCondensed Matter - Materials ScienceMultidisciplinaryCondensed Matter - Mesoscale and Nanoscale PhysicsPhysicsTime evolutionMaterials Science (cond-mat.mtrl-sci)Observable021001 nanoscience & nanotechnologytime-dependent density functional theoryTopological insulatorPhysical SciencesBerry connection and curvature0210 nano-technology
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Probing the bond order wave phase transitions of the ionic Hubbard model by superlattice modulation spectroscopy

2017

An exotic phase, the bond order wave, characterized by the spontaneous dimerization of the hopping, has been predicted to exist sandwiched between the band and Mott insulators in systems described by the ionic Hubbard model. Despite growing theoretical evidences, this phase still evades experimental detection. Given the recent realization of the ionic Hubbard model in ultracold atomic gases, we propose here to detect the bond order wave using superlattice modulation spectroscopy. We demonstrate, with the help of time-dependent density-matrix renormalization group and bosonization, that this spectroscopic approach reveals characteristics of both the Ising and Kosterlitz-Thouless transitions …

BosonizationHubbard model[PHYS.COND.GAS]Physics [physics]/Condensed Matter [cond-mat]/Quantum Gases [cond-mat.quant-gas]SuperlatticeGeneral Physics and AstronomyIonic bondingFOS: Physical sciences01 natural sciencesCondensed Matter - Strongly Correlated ElectronsPhysics and Astronomy (all)0103 physical sciencesBosonizationCold atoms010306 general physicsPhysicsCondensed Matter::Quantum GasesCondensed matter physicsDensity Matrix Renormalization GroupStrongly Correlated Electrons (cond-mat.str-el)010308 nuclear & particles physicsMott insulatorBerezinskii-Kosterlitz-Thouless transitionIsing transitionRenormalization groupBond orderQuantum Gases (cond-mat.quant-gas)Ising modelCondensed Matter::Strongly Correlated ElectronsCondensed Matter - Quantum Gases
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Accessing finite momentum excitations of the one-dimensional Bose-Hubbard model using superlattice modulation spectroscopy

2018

We investigate the response to superlattice modulation of a bosonic quantum gas confined to arrays of tubes emulating the one-dimensional Bose-Hubbard model. We demonstrate, using both time-dependent density matrix renormalization group and linear response theory, that such a superlattice modulation gives access to the excitation spectrum of the Bose-Hubbard model at finite momenta. Deep in the Mott-insulator, the response is characterized by a narrow energy absorption peak at a frequency approximately corresponding to the onsite interaction strength between bosons. This spectroscopic technique thus allows for an accurate measurement of the effective value of the interaction strength. On th…

BosonizationPhysicsCondensed Matter::Quantum GasesCondensed matter physics[PHYS.COND.GAS]Physics [physics]/Condensed Matter [cond-mat]/Quantum Gases [cond-mat.quant-gas]Density matrix renormalization groupMott insulatorSuperlatticeFOS: Physical sciencesBose–Hubbard model01 natural sciencesAtomic and Molecular Physics and Optics010305 fluids & plasmasSuperfluidityBose-Hubbard modelQuantum Gases (cond-mat.quant-gas)Atomic and Molecular PhysicsDMRG0103 physical sciencesBosonizationand Optics010306 general physicsCondensed Matter - Quantum GasesFrequency modulationBoson
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Topological Devil's staircase in atomic two-leg ladders

2019

Abstract We show that a hierarchy of topological phases in one dimension—a topological Devil’s staircase—can emerge at fractional filling fractions in interacting systems, whose single-particle band structure describes a topological or a crystalline topological insulator. Focusing on a specific example in the BDI class, we present a field-theoretical argument based on bosonization that indicates how the system, as a function of the filling fraction, hosts a series of density waves. Subsequently, based on a numerical investigation of the low-lying energy spectrum, Wilczek–Zee phases, and entanglement spectra, we show that they are symmetry protected topological phases. In sharp contrast to t…

Bosonizationcold-atoms; fractional topological phase; strongly correlated; two-leg ladderGeneral Physics and AstronomyFOS: Physical sciencesQuantum entanglementcold-atomTopology01 natural sciencesSettore FIS/03 - Fisica della Materia010305 fluids & plasmasUltracold atom0103 physical sciencesddc:530Limit (mathematics)010306 general physicsElectronic band structurePhysicsstrongly correlatedSeries (mathematics)Symmetry (physics)cold-atomsQuantum Gases (cond-mat.quant-gas)Topological insulatorfractional topological phaseCondensed Matter - Quantum Gasestwo-leg ladder
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The Ambulacraria-specific COMPASS-like protein contributes to sns5 chromatin insulator function in the sea urchin embryo

2013

COMPASS chromatin insulator ambulacrarians sea urchin embryoSettore BIO/11 - Biologia Molecolare
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The Compass-like Locus, Exclusive to the Ambulacrarians, Encodes a Chromatin Insulator Binding Protein in the Sea Urchin Embryo

2013

Chromatin insulators are eukaryotic genome elements that upon binding of specific proteins display barrier and/or enhancer-blocking activity. Although several insulators have been described throughout various metazoans, much less is known about proteins that mediate their functions. This article deals with the identification and functional characterization in Paracentrotus lividus of COMPASS-like (CMPl), a novel echinoderm insulator binding protein. Phylogenetic analysis shows that the CMPl factor, encoded by the alternative spliced Cmp/Cmpl transcript, is the founder of a novel ambulacrarian-specific family of Homeodomain proteins containing the Compass domain. Specific association of CMPl…

Cancer ResearchEmbryo Nonmammalianchromatin insulators genome evolution alternative splicing sea urchin embryolcsh:QH426-470RepressorSettore BIO/11 - Biologia MolecolareRegulatory Sequences Nucleic AcidHistonesGene clusterGeneticsAnimalsPromoter Regions GeneticEnhancerMolecular BiologyPhylogenyGenetics (clinical)Ecology Evolution Behavior and SystematicsGeneticsMessenger RNAbiologyBinding proteinGene Expression Regulation DevelopmentalFusion proteinChromatinNucleosomesChromatinlcsh:GeneticsEnhancer Elements GeneticNucleoproteinsHistoneSea UrchinsParacentrotusbiology.proteinInsulator ElementsCarrier ProteinsResearch ArticleProtein BindingPLoS Genetics
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Observation of topological gravity-capillary waves in a water wave crystal

2019

The discovery of topological phases of matter, initially driven by theoretical advances in quantum condensed matter physics, has been recently extended to classical wave systems, reaching out to a wealth of novel potential applications in signal manipulation and energy concentration. Despite the fact that many realistic wave media (metals at optical frequencies, polymers at ultrasonic frequencies) are inherently dispersive, topological wave transport in photonic and phononic crystals has so far been limited to ideal situations and proof-of-concept experiments involving dispersionless media. Here, we report the first experimental demonstration of topological edge states in a classical water …

Capillary waveWave propagationFOS: Physical sciencesGeneral Physics and AstronomyInsulator (electricity)Topology01 natural sciences010305 fluids & plasmas[SPI.MAT]Engineering Sciences [physics]/MaterialsMesoscale and Nanoscale Physics (cond-mat.mes-hall)0103 physical sciences[SPI.NANO]Engineering Sciences [physics]/Micro and nanotechnologies/Microelectronics010306 general physicsDispersion (water waves)QuantumPhysics[SPI.ACOU]Engineering Sciences [physics]/Acoustics [physics.class-ph]Condensed Matter - Mesoscale and Nanoscale Physicsbusiness.industryFluid Dynamics (physics.flu-dyn)Valley PhysicsPhysics - Fluid DynamicsTopological InsulatorsWater wavesTopological insulatorUltrasonic sensorPhotonicsbusiness
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Down-regulation of early sea urchin histone H2A gene relies on cis regulative sequences located in the 5' and 3' regions and including the enhancer b…

2004

The tandem repeated sea urchin alpha-histone genes are developmentally regulated by gene-specific promoter elements. Coordinate transcription of the five genes begins after meiotic maturation of the oocyte, continues through cleavage, and reaches its maximum at morula stage, after which these genes are shut off and maintained in a silenced state for the life cycle of the animal. Although cis regulative sequences affecting the timing and the level of expression of these genes have been characterized, much less is known about the mechanism of their repression. Here we report the results of a functional analysis that allowed the identification of the sequence elements needed for the silencing …

Chloramphenicol O-Acetyltransferaseanimal structuresEmbryo NonmammalianMicroinjectionsgenomic insulatorDown-RegulationSettore BIO/11 - Biologia MolecolareBiologyRegulatory Sequences Nucleic AcidDNA-binding proteinHistonesStructural BiologyTranscription (biology)Gene expressionHistone H2Atranscriptional repressionGene silencingAnimalsGene SilencingTransgenesEnhancerPromoter Regions GeneticMolecular BiologyGenePsychological repressionhistone geneRepetitive Sequences Nucleic AcidSequence DeletionGeneticsenhancer blockerGastrulaEnhancer Elements GeneticSea Urchinsembryonic structuresProtein BindingJournal of molecular biology
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The Sea Urchin sns5 Insulator Protects Retroviral Vectors From Chromosomal Position Effects by Maintaining Active Chromatin Structure

2009

Silencing and position-effect (PE) variegation (PEV), which is due to integration of viral vectors in heterochromatin regions, are considered significant obstacles to obtaining a consistent level of transgene expression in gene therapy. The inclusion of chromatin insulators into vectors has been proposed to counteract this position-dependent variegation of transgene expression. Here, we show that the sea urchin chromatin insulator, sns5, protects a recombinant gamma-retroviral vector from the negative influence of chromatin in erythroid milieu. This element increases the probability of vector expression at different chromosomal integration sites, which reduces both silencing and PEV. By chr…

Chromatin ImmunoprecipitationEuchromatinHeterochromatinGenetic VectorsSettore BIO/11 - Biologia MolecolareSettore MED/08 - Anatomia PatologicaBiologyChromatin remodelingChromosomal Position EffectsMiceCell Line TumorDrug DiscoveryGeneticsAnimalsNucleosomeGATA1 Transcription FactorPosition EffectChromatin insulatorMolecular BiologyChIA-PETGeneticsPharmacologyChromatin insulator; Position Effects; Histone modificationsHistone modificationsChromosomal Position EffectsOriginal ArticlesChromatinChromatinRetroviridaeSea UrchinsNIH 3T3 CellsMolecular MedicineInsulator ElementsChromatin immunoprecipitationOctamer Transcription Factor-1Protein BindingMolecular Therapy
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