Universitätspublikationen
Refine
Year of publication
Document Type
- Article (1480)
- Preprint (923)
- Doctoral Thesis (375)
- Conference Proceeding (225)
- Bachelor Thesis (74)
- Master's Thesis (61)
- Contribution to a Periodical (46)
- Book (29)
- Part of Periodical (27)
- Diploma Thesis (22)
Keywords
- Heavy Ion Experiments (20)
- LHC (15)
- BESIII (11)
- Hadron-Hadron Scattering (11)
- Hadron-Hadron scattering (experiments) (11)
- Heavy-ion collisions (10)
- Relativistic heavy-ion collisions (10)
- ALICE (9)
- Branching fraction (9)
- e +-e − Experiments (9)
- Heavy-ion collision (8)
- QCD (8)
- Black holes (7)
- Equation of state (7)
- Lattice QCD (7)
- QCD phase diagram (7)
- HADES (6)
- Ionenstrahl (6)
- Particle and Resonance Production (6)
- Quark-Gluon Plasma (6)
- equation of state (6)
- focused electron beam induced deposition (6)
- Charmonium (5)
- Collective Flow (5)
- Electronic properties and materials (5)
- Jets (5)
- Magnetic properties and materials (5)
- Quantum chromodynamics (5)
- Quarkonium (5)
- RHIC (5)
- Strahldynamik (5)
- Teilchenbeschleuniger (5)
- Toroidales Magnetfeld (5)
- density functional theory (5)
- heavy-ion collisions (5)
- radiation-induced nanostructures (5)
- ALICE experiment (4)
- Atomic and molecular interactions with photons (4)
- Beschleunigerphysik (4)
- CBM (4)
- Charm physics (4)
- Charmed mesons (4)
- Cryoelectron microscopy (4)
- Dyson–Schwinger equations (4)
- Electroweak interaction (4)
- FAIR (4)
- FEBID (4)
- Fluctuations (4)
- Gross-Neveu model (4)
- Hadronic decays (4)
- Heavy Ion Collisions (4)
- Heavy Ions (4)
- Lepton colliders (4)
- Monte-Carlo-Simulation (4)
- Nuclear reactions (4)
- Phase transitions and critical phenomena (4)
- Polarization (4)
- QCD equation of state (4)
- Quark-gluon plasma (4)
- Quasi-free scattering (4)
- RFQ (4)
- inhomogeneous phases (4)
- mean-field (4)
- phase diagram (4)
- phase transition (4)
- quark-gluon plasma (4)
- stability analysis (4)
- synaptic plasticity (4)
- Beschleuniger (3)
- Branching fractions (3)
- Charm Physics (3)
- Compact stars (3)
- D-wave (3)
- Emittanz (3)
- Energy system design (3)
- Experimental nuclear physics (3)
- Experimental particle physics (3)
- Extra dimensions (3)
- FOS: Physical sciences (3)
- Fisher information (3)
- Flow (3)
- Gabor lens (3)
- General relativity (3)
- Guided waves (3)
- HBT (3)
- Heavy ion collisions (3)
- Hebbian learning (3)
- I-wave (3)
- Initial state radiation (3)
- Inverse kinematics (3)
- Jets and Jet Substructure (3)
- Magnetic field (3)
- Neutron star (3)
- Neutron stars (3)
- Nonperturbative methods (3)
- Nuclear Physics (3)
- Particle and resonance production (3)
- Particle decays (3)
- Phase Diagram of QCD (3)
- Physics (3)
- Proton (3)
- Quantum field theory (3)
- Quantum gravity (3)
- Quark-Gluon-Plasma (3)
- Quark–gluon plasma (3)
- Radiative capture (3)
- Relativistic kinetic theory (3)
- Schwerionenphysik (3)
- Spectroscopic factors (3)
- Spectroscopy (3)
- Speicherring (3)
- Strangeness (3)
- Superconducting properties and materials (3)
- beam dynamics (3)
- brain stimulation (3)
- compartmental neuron model (3)
- computational model (3)
- correlated electrons (3)
- dark energy (3)
- deep learning (3)
- detector (3)
- elliptic flow (3)
- game theory (3)
- heavy ion collisions (3)
- heavy ions (3)
- hyperons (3)
- lattice QCD (3)
- moat regime (3)
- motor cortex (3)
- multi-scale modeling (3)
- objective functions (3)
- pp collisions (3)
- quantum chromodynamics (3)
- relativistic heavy-ion collisions (3)
- strangeness (3)
- terahertz (3)
- transcranial magnetic stimulation (3)
- transport theory (3)
- two-point function (3)
- wave-function renormalization (3)
- α-RuCl3 (3)
- 3D printing (2)
- Accelerators & Beams (2)
- Activation (2)
- AdS-CFT Correspondence (2)
- Atomic and Molecular Physics (2)
- Atomic, Molecular & Optical (2)
- Beauty production (2)
- Bethe–Salpeter equation (2)
- Biochemistry (2)
- Biophysics (2)
- Biophysics and structural biology (2)
- Black hole (2)
- Boltzmann equation (2)
- CBM Experiment (2)
- CBM experiment (2)
- Casimir effect (2)
- Chemical physics (2)
- Chiral phase transition (2)
- Chiral symmetry (2)
- Chiral symmetry restoration (2)
- Color superconductivity (2)
- Complex networks (2)
- Computersimulation (2)
- Conformal Field Theory (2)
- Conserved charge fluctuations (2)
- Control System (2)
- Cross section (2)
- Cryo-electron microscopy (2)
- Datenanalyse (2)
- Detector (2)
- Diffusion (2)
- Dileptonen (2)
- Dissertation (2)
- Doku Mittelstufe (2)
- Dynamical chiral symmetry breaking (2)
- EPICS (2)
- Electromagnetic probes (2)
- Electronic structure of atoms and molecules (2)
- Electroweak Interaction (2)
- Elliptic flow (2)
- Event-by-event fluctuations (2)
- Exotics (2)
- FRANZ (2)
- FRANZ-Projekt (2)
- Finite temperature field theory (2)
- Functional Renormalization Group (2)
- Functional renormalization group (2)
- GSI (2)
- Gabor-Linse (2)
- Gammaspektroskopie (2)
- Gauge-gravity correspondence (2)
- Gravitational waves (2)
- Hadron (2)
- Hadron-hadron interactions (2)
- Hadronic cross section (2)
- Heavy Ion Phenomenology (2)
- Heavy Quark Production (2)
- Heavy baryons (2)
- Heavy flavor (2)
- Heavy-flavour production (2)
- Heavy-ion (2)
- Heavy-ion Collisions (2)
- Hubbard model (2)
- Hybrid mesons (2)
- Hypernuclei (2)
- Hyperons (2)
- Injektionssystem (2)
- Ionenbeschleuniger (2)
- Kaons (2)
- Kernmaterie (2)
- Ladder-RFQ (2)
- Large-scale integration of renewable power generation (2)
- Laser-produced plasmas (2)
- Lattice Quantum Field Theory (2)
- Lattice field theory (2)
- Learning (2)
- Lepton-Nucleon Scattering (experiments) (2)
- Leptonic, semileptonic & radiative decays (2)
- MAPS (2)
- Minimal length (2)
- Molekulardynamik (2)
- Monte Carlo simulations (2)
- Muon anomaly (2)
- NA61/SHINE (2)
- Nanoscale materials (2)
- Neuronales Netz (2)
- Neutron Star (2)
- Nuclear astrophysics (2)
- Nuclear matter (2)
- Nuclear modification factor (2)
- Nuclear resonance fluorescence (2)
- Nucleon induced nuclear reactions (2)
- Nucleus–nucleus collisions (2)
- Nukleosynthese (2)
- Numerical Relativity (2)
- PELDOR/DEER spectroscopy (2)
- Particle Accelerator (2)
- Particle Correlations and Fluctuations (2)
- Particle correlations and fluctuations (2)
- Pb–Pb collisions (2)
- Phase transitions (2)
- Physik (2)
- Pion form factor (2)
- Plasma Physics (2)
- Plasma-based accelerators (2)
- Proteins (2)
- Protonenstrahl (2)
- QCD Phenomenology (2)
- QCD phase transition (2)
- QGP (2)
- Quantenchromodynamik (2)
- Quark deconfinement (2)
- Radio Frequenz Quadrupol (2)
- Rapid rotation (2)
- Research article (2)
- SARS-CoV-2 (2)
- Shear viscosity (2)
- Shell model (2)
- Simulation (2)
- Single electrons (2)
- Single-particle states (2)
- Spectral functions (2)
- Spurselektion (2)
- Strahlprofil (2)
- Strahltransport (2)
- Strong interaction (2)
- Synaptic plasticity (2)
- Synchrotron (2)
- TeraFET (2)
- Transport properties (2)
- Two-dimensional materials (2)
- Ultra-relativistic heavy ion collisions (2)
- Vertex Detector (2)
- Zustandsgleichung (2)
- additive manufacturing (2)
- anisotropic azimuthal correlation (2)
- artificial intelligence (2)
- asymptotic giant branch stars (2)
- atomic force microscopy (2)
- binary neutron star merger (2)
- binary neutron star mergers (2)
- black holes (2)
- bulk viscosity (2)
- chemically peculiar stars (2)
- chiral symmetry (2)
- chiral symmetry restoration (2)
- circuit analysis (2)
- circumstellar dust (2)
- composite structures (2)
- conformational dynamics (2)
- correlation functions (2)
- correlations (2)
- dileptons (2)
- directed flow (2)
- disorder (2)
- e+-e− Experiments (2)
- electron beam induced deposition (2)
- electronic band structure (2)
- electronic transport (2)
- energy system design (2)
- energy transduction (2)
- generating functionals (2)
- global jets (2)
- granular metals (2)
- gravitational wave (2)
- gravitational waves (2)
- hadron gas (2)
- heavy ion physics (2)
- helical magnetic fields (2)
- heterostructures (2)
- high energy physics (2)
- homeostatic adaption (2)
- hot spots (2)
- hydrodynamics (2)
- in-Medium Modifikation (2)
- inflation (2)
- initial state (2)
- injection (2)
- kink-like instability (2)
- lattice (2)
- magnetic fields (2)
- magnetic frustration (2)
- mathematical and relativistic aspects of cosmology (2)
- molecular dynamics (2)
- nanofabrication (2)
- neutron stars (2)
- nonlinear dynamical systems (2)
- nucleosynthesis (2)
- organic charge-transfer salts (2)
- oscillators (2)
- p-Kerne (2)
- p-n junction (2)
- particle physics (2)
- particle-in-cell simulations (2)
- phase noise (2)
- photoelectron spectroscopy (2)
- power transmission (2)
- quantum gravity (2)
- quantum mechanics (2)
- quark gluon plasma (2)
- recollimation shocks (2)
- relativistic hydrodynamics (2)
- relativistic jets (2)
- reservoir computing (2)
- resonances (2)
- s-Prozess (2)
- s-process (2)
- scanning tunneling microscopy (2)
- simulation (2)
- statistical operator (2)
- stellar abundances (2)
- storage rings (2)
- string fragmentation (2)
- structural health monitoring (2)
- system analysis and design (2)
- thin films (2)
- toroidal magnetic field (2)
- track selection (2)
- transition-metal oxides (2)
- transport coefficients (2)
- vector mesons (2)
- (Anti-)(Hyper-)Nuclei (1)
- (F)EBID (1)
- (n (1)
- 1/c 2 electronic Hamiltonian (1)
- 124Sn (1)
- 140Ce (1)
- 1st order liquid–gas phase transition (1)
- 2 + 1-dimensional field theories (1)
- 2D materials (1)
- 2D vdW magnets (1)
- 3-atomic-heteronuclear molecule (1)
- 325 MHz (1)
- 4-ROD RFQ (1)
- 900 GeV (1)
- AGB star (1)
- AGN host galaxies (1)
- AGN jets (1)
- ALICE detector (1)
- ALICE upgrade (1)
- ALICE, Teilchendetektor (1)
- AM-PM noise conversion (1)
- ATR-FTIR (1)
- Ab initio calculations (1)
- Abbremsen (1)
- Absolutkonfiguration (1)
- Absorptionsspektroskopie (1)
- Accelerator (1)
- Accelerator Physics (1)
- Accelerators & storage rings (1)
- Accreting black holes (1)
- Action potentials (1)
- Activation experiment (1)
- Actuators (1)
- Ageing (1)
- Aktivierungsmethode (1)
- Akustik (1)
- Alignment parameter (1)
- Alignmentparameter (1)
- Alternating Phase Focusing (1)
- Analysis (1)
- Anderson Impurity model (1)
- Anderson-Modell (1)
- Angular distribution (1)
- Anion Transport System (1)
- Anisotropic flow (1)
- Anisotropie (1)
- Annihilation (1)
- Anregung (1)
- Anti de Sitter space (1)
- Anti-kaon–nucleon physics (1)
- Anti-nuclei (1)
- Antimatter (1)
- Antimicrobial resistance (1)
- Aptamer (1)
- Arms (1)
- Artificial Intelligence (1)
- Astronomical masses & mass distributions (1)
- Astrophysics (1)
- Asymmetrie Reconstitution (1)
- Atmosphere (1)
- Atomic & molecular beams (1)
- Atomic Physics (1)
- Atomic nuclei (1)
- Atomphysik (1)
- Atoms (1)
- Attenuated Total Reflection (1)
- Attosecond science (1)
- Auditory cortex (1)
- Autophagic cell death (1)
- BCS phase (1)
- BESIII detector (1)
- Bacterial structural biology (1)
- Band 3 Protein (1)
- Baryon number susceptibilities (1)
- Baryonic resonances (1)
- Beam Dynamic (1)
- Beam dynamics simulation (1)
- Beam loss (1)
- Beam techniques (1)
- Beer (1)
- Bell theorem (1)
- Beryllium-7 (1)
- Beschleunigung von Elektronen und Protonen (1)
- Beta decay (1)
- Betatrons (1)
- Betatronstrahlung (1)
- Bhabha (1)
- Bidirectional connections (1)
- Bilderkennung (1)
- Bildladung (1)
- Binary (1)
- Binary Neutron Star Mergers (1)
- Binary pulsars (1)
- Biochemical simulations (1)
- Bioenergetics (1)
- Biological locomotion (1)
- Biological physics (1)
- Biological sciences (1)
- Biomedical engineering (1)
- Biomoleküle (1)
- Biophysical chemistry (1)
- Bjorken flow (1)
- Black Holes (1)
- Blei (1)
- Bohmian mechanics (1)
- Boltzmann-Gleichung (1)
- Boltzmann-Vlasov equation (1)
- Boosted Jets (1)
- Born cross section measurement (1)
- Bose-Einstein condensates (1)
- Bosonisierung (1)
- Bottomonium (1)
- Bubble-like structure (1)
- Bulk viscosity (1)
- CBM detector (1)
- CERN PSB (1)
- CERN SPS (1)
- CH-Struktur (1)
- CJT formalism (1)
- CJT-Formalismus (1)
- CLVisc (1)
- CMOS (1)
- CMOS Monolithic Active Pixel Sensor (1)
- CNC manufacturing (1)
- CO2 emission reduction targets (1)
- COLTRIMS (1)
- COVID 19 (1)
- CP violation (1)
- CPS (1)
- CVD (1)
- Calcium ATPase (1)
- Calcium-ATPase (1)
- Canonical suppression (1)
- Cauchy horizon (1)
- Centrality Class (1)
- Centrality Selection (1)
- Chaostheorie (1)
- Charge change (1)
- Charge fluctuations (1)
- Charge-transfer collisions (1)
- Charged-particle multiplicity (1)
- Charmed meson production (1)
- Charmonia (1)
- Charmonium (-like) (1)
- Charmonium decays (1)
- Chemical Physics (1)
- Chemiluminescence (1)
- Chemometry (1)
- Cherenkov counter: lead-glass (1)
- Chiral Lagrangian (1)
- Chiral Lagrangians (1)
- Chiral effective model (1)
- Chiral perturbation theory (1)
- Chirale Symmetrie (1)
- Chiralität (1)
- Chiralität, Elementarteilchenphysik (1)
- Chopper (1)
- Circular accelerators (1)
- Co2(CO)8 (1)
- Coincidence measurement (1)
- Cold nuclear matter effects (1)
- Collective Flow, (1)
- Collective flow (1)
- Collective quadrupole excitations (1)
- Collectivity (1)
- Collision processes (1)
- Color Glass Condensate (1)
- Color screening (1)
- Coltrims (1)
- Compact astrophysical objects (1)
- Compact binary stars (1)
- Compact objects (1)
- Comparison with QCD (1)
- Compressed Baryonic Matter (1)
- Compton scattering (1)
- Computational Data Analysis (1)
- Computational Physics (1)
- Computational biophysics (1)
- Computational models (1)
- Condensed Matter, Materials & Applied Physics (1)
- Conformational transitions (1)
- Conservation (1)
- Continuous Integration (1)
- Continuous wave (1)
- Correlated systems (1)
- Correlation (1)
- Correlations (1)
- Cortical circuit (1)
- Cosmology (1)
- Coulomb Explosion Imaging (1)
- Coulombdissoziation (1)
- Coulombexplosion (1)
- Coulombspaltung (1)
- Covariance matrix (1)
- Critical indices (1)
- Critical phenomena (1)
- Cross sections (1)
- Current-curent interaction (1)
- Czochralski method (1)
- D0 and D+ mesons (1)
- DEER or PELDOR (1)
- DLA Elektronen (1)
- DNA repair (1)
- Dalitz decay (1)
- Dark energy (1)
- Dark matter (1)
- Dark photon (1)
- Dark sector (1)
- Darmstadt / Gesellschaft für Schwerionenforschung (1)
- Data Standard (1)
- Deconfinement (1)
- Deep Learning (1)
- Deep learning (1)
- Delaunay-Triangulierung (1)
- Delayline Detector (1)
- Delta resonance (1)
- Dense matter (1)
- Dense nuclear matter (1)
- Density functional theory (1)
- Design, synthesis and processing (1)
- Detektor (1)
- Detektorentwicklung (1)
- Deuteronen (1)
- Di-hadron correlations (1)
- Diabetes (1)
- Diamagnetism (1)
- Diamantdetektor (1)
- Dielectron (1)
- Diffraction (1)
- Diffusion coefficient (1)
- Dimere (1)
- Dipol-Dipol-Wechselwirkung (1)
- Direct nuclear reactions (1)
- Direct reactions (1)
- Directed and elliptic flow (1)
- Discontinous Galerkin methods for Numerical Relativity (1)
- Diseases (1)
- Doppler radar (1)
- Double-sided silicon microstrip detectors characterization readout quality assurance (1)
- Drift Tube Linac (1)
- Drip-line nucleus (1)
- Dual projection (1)
- Duality (1)
- Dynamic transport (1)
- Dynamical critical phenomena (1)
- Dynamical mean field theory (1)
- Dynamical systems (1)
- Dynamischer Strukturfaktor (1)
- Dünnschichttransistor (1)
- D⁰ meson (1)
- EBID (1)
- EPR spectroscopy (1)
- Effective Field Theories (1)
- Effective Field Theory (1)
- Effective QCD model (1)
- Effective hadron theories (1)
- Eichtheorie (1)
- Eingebettetes optisches System (1)
- Einplatinene Kamera (1)
- Einstein’s equations (1)
- Elastic scattering (1)
- Electric and magnetic field computation (1)
- Electrical and electronic engineering (1)
- Electrical conductivity (1)
- Electromagnetic form factors (1)
- Electromagnetic transitions (1)
- Electron capture (1)
- Electron-pion identification (1)
- Electronic transitions (1)
- Elektrodenarray (1)
- Elektron ; Impulsverteilung ; Heliumion (1)
- Elektronenanlagerungsreaktion (1)
- Elektronenwolke (1)
- Elektrostatik (1)
- Elementarteilchen (1)
- Elsevier (1)
- Emissionsspektroskopie (1)
- Emittanzmessung (1)
- Energietransduktion (1)
- Energy transfer (1)
- Entwicklungspsychologie (1)
- Enzyme mechanisms (1)
- Epidemiological statistics (1)
- Epidemiology (1)
- Equation of State (1)
- Equations of state: nuclear matter (1)
- Erythrocyte Membrane (1)
- EuB6 (1)
- European electricity grid (1)
- Event-by-event (1)
- Evolution of the Universe (1)
- Evolutionäre Spieltheorie (1)
- Excitation (1)
- Excluded volume (1)
- Exotic State (1)
- Exotic phases of matter (1)
- Exotica (1)
- Experimental testing (1)
- Experimental tests (1)
- FLASH Effekt (1)
- FM radar (1)
- FRW spacetime (1)
- FTAM and OX063 (1)
- Fahrzeug (1)
- Far from equilibrium (1)
- Faraday-Tasse (1)
- Feldeffekt (1)
- Feldeffekttransistor (1)
- Feldquant (1)
- Feldtheorie (1)
- Femtoscopy (1)
- Femtosekundenspektroskopie (1)
- Fermions (1)
- Fermion–gauge-boson vertex (1)
- Ferroelectrics and multiferroics (1)
- Fibre/foam sandwich radiator (1)
- Field Theories in Lower Dimensions (1)
- Field-effect (1)
- Filterkanal (1)
- Final state (1)
- Finite baryon density (1)
- Finite difference method (1)
- Finite element simulations (1)
- Finite-Differenzen (1)
- Finite-temperature QFT (1)
- First order phase transitions (1)
- Fission (1)
- Fixed-target experiments (1)
- Flavor changing neutral currents (1)
- Flavor symmetries (1)
- Flavour Physics (1)
- Flexible backup power (1)
- Floquet theory (1)
- Fluctuation Spectroscopy (1)
- Fluctuations in the initial conditions (1)
- Fluctuations of conserved charges (1)
- Fluid dynamics (1)
- Fluka (1)
- Fluktuationsspektroskopie (1)
- Fluoreszenz (1)
- Form factors (1)
- Formulations of Einstein Field Equations (1)
- Fractal dimension (1)
- Fragmentierungsquerschnitte (1)
- Franck-Condon (1)
- Frankfurt <Main> / Institut für Kernphysik (1)
- Free energy (1)
- Free neutron targ (1)
- Free-Electron-Laser (1)
- Free-electron lasers (1)
- Freeze-out (1)
- Freezeout (1)
- Freie-Elektronen-Laser (1)
- Friedman equation (1)
- Fringe field (1)
- Fullerene (1)
- Funktionale Renormierungsgruppe (1)
- GEANT (1)
- GEM (1)
- GRMHD (1)
- Gabor Lens (1)
- Galaxies and clusters (1)
- Gamma intensity (1)
- Gamma spectroscopy (1)
- Gammakalorimeter (1)
- Gammaspectroscopy (1)
- Gap field (1)
- Gauge theories (1)
- GdIr2Si2 (1)
- Gefangenendilemma (1)
- Gehirn (1)
- Gene expression analysis (1)
- General Physics (1)
- General properties of QCD (dynamics, confinement, etc.) (1)
- General relativistic hydrodynamics (1)
- General relativity equations & solutions (1)
- Generalized uncertainty (1)
- Genetic engineering (1)
- Geometrical optics (1)
- Germanium detectors (1)
- Gesellschaft für Schwerionenforschung (1)
- Gittereichtheorie (1)
- Glauber and Giessen Boltzmann–Uehling–Uhlenbeck (GiBUU) models (1)
- Glimmentladung (1)
- Global polarization (1)
- Globale Optimierung (1)
- Gluons (1)
- Goldstone bosons (1)
- Graphene (1)
- Graphentheorie (1)
- Gravitational Waves (1)
- Gravitational collapse (1)
- Gravitational fixed point (1)
- Gravitational wave (1)
- Gravitational wave events (1)
- Gravity self-completeness (1)
- Groomed jet radius (1)
- Ground-state transition width (1)
- Großhirnrinde (1)
- HADES <Teilchendetektor> ; Driftkammer ; Ausleseverfahren <Sensortechnik> (1)
- HBT correlation (1)
- HBT interferometry (1)
- HBT puzzle (1)
- HEDP (1)
- HITRAP (1)
- HLT (1)
- Hades (1)
- Hadron Spectroscopy (1)
- Hadron potentials (1)
- Hadron production (1)
- Hadron resonance gas (1)
- Hadron spectroscopy (1)
- Hadron-Hadron Scattering Heavy (1)
- Hadronenjet (1)
- Hadronic potential (1)
- Hadronization (1)
- Hagedorn Zustände (1)
- Hagedorn states (1)
- Halbleiterdetektor (1)
- Hallsensor (1)
- Hard Scattering (1)
- Hawking radiation (1)
- Heavy Ion Experiment (1)
- Heavy Ion Physics (1)
- Heavy flavor production (1)
- Heavy flavour production (1)
- Heavy ion (1)
- Heavy ion storage ring (1)
- Heavy ions (1)
- Heavy quarks (1)
- Heavy-Ion Collision (1)
- Heavy-flavour decay muons (1)
- Heavy-ion physics (1)
- Heavy-ion reactions (1)
- Heavy-ions (1)
- Heavy-quark symmetry (1)
- Heisenberg modell (1)
- Heisenberg-Modell (1)
- Helium (1)
- Heliumdimere (1)
- Herzberg-Teller (1)
- High Energy Physics - Experiment (hep-ex) (1)
- High Energy Physics - Lattice (hep-lat) (1)
- High Energy Physics - Phenomenology (hep-ph) (1)
- High Energy Physics - Theory (hep-th) (1)
- High-Level Trigger (1)
- High-energy astrophysics (1)
- High-energy neutron detection (1)
- High-energy photoabsorption (1)
- High-k dielectric (1)
- High-k-Dielektrikum (1)
- Hirnforschung (1)
- Historie (1)
- Hochenergiephysik (1)
- Hochfrequenzsputtern (1)
- Hochstrom-Ionenquelle (1)
- Holography (1)
- Homeostasis (1)
- Hybrid Monte Carlo algorithm (1)
- Hybrid model (1)
- Hydrodynamic (1)
- Hydrodynamic models (1)
- Hydrodynamics (1)
- Hydrogen ground state (1)
- Hyperonic stars (1)
- ICD (1)
- IHMCIF (1)
- IPGLASMA (1)
- Image Charge (1)
- Imaginary chemical potential (1)
- Immunology (1)
- Impact parameter (1)
- Impulsspektrometer (1)
- In-medium pion mass (1)
- Inclusive Reconstruction (1)
- Inclusive spectra (1)
- Infections (1)
- Information theory and computation (1)
- Infrared Spectra (1)
- Infrared light (1)
- Infrared spectroscopy (1)
- Initial state (1)
- Innovative systems (1)
- Integrative Modeling (1)
- Integrator (1)
- Intensity interferometry (1)
- Interference fragmentation function (1)
- Interferometrie (1)
- Intermittency (1)
- Internet (1)
- Interstellar molecules (1)
- Invariant Mass Distribution (1)
- Inverse Kinematics (1)
- Invisible decays (1)
- Ion Beam (1)
- Ion-Atom-Kollisions (1)
- Ion-Molecule collisions (1)
- Ion-Molekül-Stoß (1)
- Ionbeam (1)
- Ionenquelle (1)
- Ionenstoß (1)
- Ionisation energy loss (1)
- Ions (1)
- Iron pnictides (1)
- Irregular plate (1)
- Irregular plate with non-uniform thickness (1)
- Isospin (1)
- J/ψ (1)
- J/ψ suppression (1)
- Jet Physics (1)
- Jet Substructure (1)
- Jet quenching (1)
- Jet shapes (1)
- Jet substructure (1)
- Josephson junction arrays (1)
- K+-nucleus interaction (1)
- KN interaction (1)
- Kagome systems (1)
- Kalman-Filter (1)
- Kaonic nuclei (1)
- Keldysh-Formalismus (1)
- Kernphysik (1)
- Kinetic Theory (1)
- Kitaev model (1)
- Kleines Molekül (1)
- Kohlenstoff (1)
- Kohlenstoffmolekül (1)
- Kollektive Anregung (1)
- Konformationsübergänge (1)
- Kooperativität (1)
- Kupfer-63 (1)
- LINAC (1)
- LaTeX (1)
- Lamb waves (1)
- Lambda Hyperon (1)
- Laminar flow (1)
- Langmuir-Blodgett monolayer (1)
- Langsame Extraktion (1)
- Lattice Gauge Theory (1)
- Lattice gauge field theories (1)
- Lattice gauge theory (1)
- Lattice simulations (1)
- Laute (1)
- Leptons (1)
- Levelized cost of electricity (1)
- Li-ion batteries (1)
- Li1.3Nb0.3Mn0.4O2 (1)
- Ligand-gated ion channel (1)
- Light (1)
- Light (anti-)(hyper-)nuclei production (1)
- Light nuclei production (1)
- Linac (1)
- Linear accelerator (1)
- Linear response (1)
- Linearer Collider ; Hohlraumresonator ; Moden (1)
- Linearer Collider ; Hohlraumresonator ; Moden ; Dämpfung ; Güte <Schwingkreis> ; Messung (1)
- Lipids (1)
- Lithium-7 (1)
- Longitudinal and transverse electric fields (1)
- Longitudinal flow (1)
- Low & intermediate energy heavy-ion reactions (1)
- Low & intermediate-energy accelerators (1)
- Low energy QCD (1)
- Luttinger liquid (1)
- Luttinger-Flüssigkeit (1)
- MYRRHA (1)
- Mach cones (1)
- Magnetfeld (1)
- Magnetfeldregelung (1)
- Magnetism (1)
- Magnetohydrodynamics (1)
- Magnetspektrometer (1)
- Magnons (1)
- Magon-Phonon-Wechselwirkung (1)
- Many-body (1)
- Many-body physics (1)
- Mars (1)
- Master Equations (1)
- Material budget (1)
- Materials science (1)
- Mathematical biosciences (1)
- Mathematics and computing (1)
- Maxwell–Chern–Simons (1)
- Md simulations (1)
- Mechanical engineering (1)
- Membrane and lipid biology (1)
- Membrane fusion (1)
- Membrane proteins (1)
- Membrane structures (1)
- Membrane transport (1)
- Membranes (1)
- Membranproteine (1)
- Meson decays (1)
- Meson production (1)
- Meson-exchange model (1)
- Mesons (1)
- Metasurfaces (1)
- Micro Vertex Detector (1)
- Microscopic quark–gluon string transport model (1)
- Mid-rapidity (1)
- Mikroelektrode (1)
- Mikrokanalelektronenvervielfacher (1)
- Minimum Bias (1)
- Models & methods for nuclear reactions (1)
- Models of QCD (1)
- Modified gravity (1)
- Molecular clouds (1)
- Molecular dynamics (1)
- Molecule destruction (1)
- Molecule formation (1)
- Molekularbewegung (1)
- Molekularstrahlepitaxie (1)
- Molekülphysik (1)
- Molekülstoß (1)
- Molybdän (1)
- Momentum Spectrometry (1)
- Monte Carlo (1)
- Monte Carlo simulation (1)
- Monte-Carlo simulations (1)
- Mott insulator (1)
- Mott metal-insulator transition (1)
- Mott transition (1)
- Multi-Parton Interactions (1)
- Multi-neutron detection (1)
- Multi-strange baryons (1)
- Multi-wire proportional drift chamber (1)
- Multigrid Poisson Solver (1)
- Multigrid methods (1)
- Multimessenger (1)
- Multiple Charge Conservation (1)
- Multiple parton interactions (1)
- Multivariate Analysis (1)
- NADH:ubiquinone oxidoreductase (1)
- Nambu–Goldstone bosons (1)
- Nambu–Jona-Lasinio model (1)
- Nanophotonics and plasmonics (1)
- Nanowires (1)
- Natrium-Kalium-ATPase (1)
- Natural transformation (1)
- NbC (1)
- Network model (1)
- Network models (1)
- Netzhaut ; Nervenzelle ; Inhibition (1)
- Netzwerktopologie (1)
- Neural Networks (1)
- Neural net (1)
- Neural network (1)
- Neural networks (1)
- Neuronal plasticity (1)
- Neurons (1)
- Neuroscience (1)
- Neutrinos (1)
- Neutron physics (1)
- Neutron-induced reaction cross sections (1)
- Neutronenquelle (1)
- Neutronenspektrum (1)
- Neutronenstern (1)
- New magicity (1)
- Nicht-linearer Transport (1)
- Nichtinvasiv (1)
- Nichtlineare Optik (1)
- Nichtlineare Spektroskopie (1)
- Nickel-63 (1)
- Niedrige Dimensionen (1)
- Nobel prizes (1)
- Noether symmetries (1)
- Noise spectra (1)
- Non-Canonical Amino Acids (1)
- Non-coding RNA (1)
- Non-dipole (1)
- Non-perturbative QCD (1)
- Non-relativistic QED (1)
- Noncommutative black holes (1)
- Noncommutativity (1)
- Nonequilibrium dynamics (1)
- Nonflow (1)
- Nonlinear beam dynamics (1)
- Nonperturbative Effects (1)
- Nonperturbative effects in field theory (1)
- Nonrandom connectivity (1)
- Nuclear Astrophysics (1)
- Nuclear Experiment (nucl-ex) (1)
- Nuclear Theory (nucl-th) (1)
- Nuclear fragments production (1)
- Nuclear interactions (1)
- Nuclear physics of explosive environments (1)
- Nuclear structure & decays (1)
- Nucleosynthesis in explosive environments (1)
- Nucleosynthesis-Star (1)
- Nucleus (1)
- Nukleare Astrophysik (1)
- Nukleon (1)
- Nullter Schall (1)
- Numerical Renormalization Group (1)
- Numerical simulations (1)
- Nyquist noise (1)
- O(2) Modell (1)
- O(2) model (1)
- O(4) conjecture (1)
- One-nucleon removal (1)
- Ontogenie (1)
- Open Access (1)
- Open Charm (1)
- Optical properties and devices (1)
- Optimal mix of wind and solar PV (1)
- Optimierung (1)
- Optische Messung (1)
- Optische Tomographie (1)
- Optisches Potenzial (1)
- Orbital electron capture (1)
- Other nonperturbative calculations (1)
- Over-Barrier Modell (1)
- Oxidation (1)
- P-Typ-ATPasen (1)
- P-type ATPase (1)
- PDB-Dev (1)
- PDBx/mmCIF (1)
- PENELOPE (1)
- PHENIX <Teilchendetektor> (1)
- PYTHIA (1)
- Pairing reentrance (1)
- Palatini (1)
- Pandemics (1)
- Partial chemical equilibrium (1)
- Partial wave analysis (1)
- Particle & resonance production (1)
- Particle Dynamic (1)
- Particle multiplicity (1)
- Particle phenomena (1)
- Particleantiparticle correlations (1)
- Particles & Fields (1)
- Parton cascade BAMPS (1)
- Path integral duality (1)
- Pb–Pb (1)
- Pepperpot (1)
- Pepperpot-Messung (1)
- Peptides and proteins (1)
- Percolation theory (1)
- Permeation and transport (1)
- Perturbative methods (1)
- Pfadintegral (1)
- Phase diagram (1)
- Phase diagram of dense matter (1)
- Phasendiagramm (1)
- Phasenraum (1)
- Phasenumwandlung (1)
- Phasenübergänge (1)
- Photodioden (1)
- Photoionisation (1)
- Photon counting (1)
- Photon number noise (1)
- Photonen (1)
- Photophysics (1)
- Photophysik (1)
- Pickupspule (1)
- Pilus (1)
- Pixel detector (1)
- Planck scale (1)
- Plasma acceleration (1)
- Plasma membrane (1)
- Plasma physics (1)
- Plasmadiagnostik (1)
- Plasmons Quantum mechanics (1)
- Plastic scintillator array (1)
- Plasticity (1)
- Plates fractalization (1)
- PointNet (1)
- Poisson-Gleichung (1)
- Polarkoordinaten (1)
- Polyakov loops (1)
- Polyatomare Verbindungen (1)
- Polypeptide (1)
- Polypeptides (1)
- Population activity (1)
- Potassium transport (1)
- Probability distribution (1)
- Production Cross Section (1)
- Production mechanisms (1)
- Properties of Hadrons (1)
- Protein Dynamics (1)
- Protein Modifications (1)
- Protein Shape (1)
- Protein folding (1)
- Protein homeostasis (1)
- Proteine (1)
- Proton number fluctuations (1)
- Proton-proton collisions (1)
- Protonen (1)
- Protonen Linac (1)
- Protonengegentransport (1)
- Protonenplasmen (1)
- Proton–proton (1)
- Prototypes (1)
- Protyposis (1)
- Pseudorapidity and centrality dependence (1)
- Pulse Shape Analysis (1)
- Pulsed epr (1)
- Pygmy Dipole Resonance (1)
- Pygmy dipole resonance (1)
- Pygmy quadrupole resonance (1)
- QCD phase transitions (1)
- QCD vector interaction strength (1)
- QCD-phase diagram (1)
- QED (1)
- QFT on curved background (1)
- Quantenphysik (1)
- Quantenspinsystem (1)
- Quantentheorie (1)
- Quantum Impurity System (1)
- Quantum corrected black hole (1)
- Quantum electrodynamics (1)
- Quantum information (1)
- Quantum modified Gravity (1)
- Quantum phase transitions (1)
- Quark <Physik> (1)
- Quark Deconfinement (1)
- Quark Gluon Plasma (1)
- Quark Production (1)
- Quark gluon plasma (1)
- Quark-gluon Plasmap (1)
- Quark-gluon-plasma (1)
- Quasi-particle phonon model (1)
- Quasiteilchen (1)
- R value (1)
- RFQ-Accelerator (1)
- RFQ-Beschleuniger (1)
- RNA (1)
- RNA structures (1)
- Radiation Tolerance (1)
- Radiation detectors (1)
- Radiation hardness (1)
- Radiative decay (1)
- Radiative decays (1)
- Radiative transfer (1)
- Radio continuum emission (1)
- Radio jets (1)
- Rain (1)
- Random fields (1)
- Random graph model (1)
- Rapidity Range (1)
- Rare decays (1)
- Ratengleichungen (1)
- Reaction Kinetics (1)
- Reactions with relativistic radioactive beams (1)
- Reaktionskinetik (1)
- Reaktionsmikroskop (1)
- Recombination (1)
- Recombination of partons (1)
- Reconstructed jets (1)
- Regelungssystem (1)
- Regeneration (1)
- Relativistic Dissipative Hydrodynamics (1)
- Relativistic Heavy Ions (1)
- Relativistic Heavy-ion Collisions (1)
- Relativistic heavy ion physics (1)
- Relativistic heavy-ion reactions (1)
- Relativistic nuclear collisions (1)
- Relativistische Hydrodynamik (1)
- Relaxation time approximation (1)
- Renewable power generation (1)
- Renormalization group (1)
- Renormierungsgruppe (1)
- Representational drift (1)
- Resolution Parameter (1)
- Resonance reactions (1)
- Resonances (1)
- Riccati equation (1)
- Richardson extrapolation (1)
- Robotic behavior (1)
- Robots (1)
- Rudder stock (1)
- Rydberg (1)
- SIS18 (1)
- SMASH (1)
- SPS (1)
- STAR (1)
- STAR <Teilchendetektor> (1)
- SYK model (1)
- Sachunterricht (1)
- Saha equation (1)
- Scale invariance (1)
- Scaling laws (1)
- Scattering of atoms, molecules, clusters & ions (1)
- Scattering theory (1)
- Scattering-type Scanning Near-field Optical Microscopy (1)
- Schaum (1)
- Schlitz-Gitter (1)
- Schottky (1)
- Schulbuchanalyse (1)
- Schwerionen (1)
- Schwerionenstrahl (1)
- Schwerpunkthöhe (1)
- Schwinger effect (1)
- Schwinger–Dyson equations (1)
- Schätzverfahren (1)
- Scintillation (1)
- Secondary beams (1)
- Secretin (1)
- Sehrinde (1)
- Seiberg–Witten map (1)
- Sekundärelektronen (1)
- Selbstorganisation (1)
- Self absorption (1)
- Self-dual (1)
- Self-triggered front-end electronics (1)
- Semi-leptonic decays (1)
- Septum (1)
- Shakhov model (1)
- Shield (1)
- Shock Waves (1)
- Short-lived nuclei (1)
- Signalanalyse (1)
- Silicon Tracking System (1)
- Silicon tracking system (1)
- Simulation and modeling (1)
- Single muons (1)
- Single particle decay spectroscopy (1)
- Single-molecule biophysics (1)
- Slavkovska (1)
- Small systems (1)
- Social distancing (1)
- Social systems (1)
- Sodium-potassium ATPase (1)
- SoftDrop (1)
- Solar power (1)
- Solar power generation (1)
- Solid state theory (1)
- Spectators (1)
- Spectroscopic factors & electromagnetic moments (1)
- Spektroskopie (1)
- Spieltheorie (1)
- Spin Hall (1)
- Spin alignment (1)
- Spin distribution and correlation (1)
- Spin-down (1)
- Spin-orbit coupling (1)
- Spintronics (1)
- Spinwaves (1)
- Spinwelle (1)
- Spinwellen (1)
- Splitting function (1)
- Spontaneous symmetry breaking (1)
- Sputtern (1)
- SrNi2P2 (1)
- Stahlenschäden (1)
- Statistical Physics (1)
- Statistical and Nonlinear Physics (1)
- Statistical model (1)
- Statistical models (1)
- Statistical multifragmentation models (1)
- Statistical theory and fluctuations (1)
- Statistische Physik (1)
- Stellar remnants (1)
- Stellar structure (1)
- Storage Ring (1)
- Storage rings (1)
- Stoß (1)
- Strahldiagnose (1)
- Strahldiagnosemethode (1)
- Strange hadrons (1)
- Strangeness Enhancement (1)
- Strangeness production (1)
- String T-duality (1)
- Strong coupling expansion (1)
- Strongly-coupled plasmas (1)
- Structural biology (1)
- Störungstheorie (1)
- Stößparameter (1)
- Sub-wavelength optics (1)
- Sulfur Dioxide (1)
- Superconducting devices (1)
- Supercooled QGP (1)
- Supermassive black holes (1)
- Supernova (1)
- Supernova remnant (1)
- Surfaces, interfaces and thin films (1)
- Surrogate-reaction method (1)
- Susceptibilities (1)
- Synapses (1)
- Synchronisierung (1)
- Systematic Uncertainty (1)
- Szintillation (1)
- Szintillationsschirm (1)
- Säugling (1)
- TATA box binding protein (1)
- THz (1)
- THz detection (1)
- THz imaging (1)
- TNSA (1)
- TPC (1)
- TPSC (1)
- TR (1)
- Techniques Electromagnetic calorimeters (1)
- Techniques and instrumentation (1)
- Teilchendynamik (1)
- Template (1)
- Terahertz optics (1)
- Theoretical and experimental femtoscopy (1)
- Theoretical and experimental identical-particle correlations (1)
- Theoretical neuroscience (1)
- Theoretical nuclear physics (1)
- Theoretical physics (1)
- Thermal & statistical models (1)
- Thermal Field Theory (1)
- Thermal evolution (1)
- Thermalization (1)
- Thermodynamik (1)
- Thermoplasma acidophilum (1)
- Thermoplasma volcanium (1)
- Thermus thermophilus (1)
- Theta-Pinch (1)
- Thin film transistor (1)
- Thin lens (1)
- Three-gluon vertex (1)
- Time Projection Chamber (1)
- Time Projection Chamber (TPC) (1)
- Time-Resolved Spectroscopy (1)
- TmRh2Si2 (1)
- Tomographie (1)
- Topological insulators (1)
- Topologische Zustände (1)
- Topology (1)
- Tracking (1)
- Transient & explosive astronomical phenomena (1)
- Transimpedanzverstärker (1)
- Transition Radiation Detector (1)
- Transition radiation detector (1)
- Transport (1)
- Transport Simulations (1)
- Transport Theory (1)
- Transport model (1)
- Transport model for heavy-ion collisions (1)
- Transport phenomena (1)
- Transverse momentum (1)
- Transversity (1)
- Trigger (1)
- Triple quarkonia (1)
- Tumortherapie (1)
- Two body weak decay (1)
- UWB diagnostics (1)
- Ultrafast spectroscopy (1)
- Ultrakalte Quantengase (1)
- Un-particle physics (1)
- Unparticle parameter constraints (1)
- Unparticle physics (1)
- Unparticles (1)
- Unruh effect (1)
- Unstable nuclei induced nuclear reactions (1)
- UrQMD (1)
- Vakuum (1)
- Vakuumphysik (1)
- Vector Boson Production (1)
- Very long baseline interferometry (1)
- Vesicle fusion (1)
- Vesicles (1)
- Vibrational Energy Transfer (1)
- Virtual reality (1)
- Visual cortex (1)
- Vortex ratchets (1)
- Vorticity (1)
- Ward–Green–Takahashi identities (1)
- Wasserstoffatmosphäre (1)
- Wasserstoffmolekül ; Heliumion ; Ion-Molekül-Stoß ; Rückstoßimpulsspektroskopie (1)
- Weak Decays (1)
- Weak interactions (1)
- Wigner function (1)
- Wind power (1)
- Wind power generation (1)
- Worldwide Protein Data Bank (1)
- X(3872) (1)
- X-ray crystallography (1)
- X-ray generation (1)
- X-ray irradiation (1)
- X-ray phase contrast imaging (1)
- X-ray spectroscopy (1)
- X-rays (1)
- Xenon-based gas mixture (1)
- Y states (1)
- Yang-Mills-Theorie (1)
- YbNi4P2 (1)
- YbRh2Si2 (1)
- Yttrium-Eisengranat (1)
- Zero crossing (1)
- Zero-point length (1)
- Zerstörungsfrei (1)
- Zr (1)
- a-induced reactions (1)
- absorbed power (1)
- abundances (1)
- accelerator physics (1)
- activation (1)
- active perception (1)
- adhesion (1)
- adsorption (1)
- algebraic cluster model (1)
- ambiguous perception (1)
- ambiguous structure-from-motion (SFM) (1)
- anisotropic flow (1)
- antiviral signaling (1)
- application (1)
- applications of teraherz imaging (1)
- archaea (1)
- artificial magnetic lattices (1)
- astrophysikalischer p-Prozess (1)
- asymptotic behavior (1)
- atomic cluster deposition (1)
- atomic cluster on a suface (1)
- atomic physics (1)
- attosecond spectroscopy (1)
- automotive (1)
- autonomous learning (1)
- axions (1)
- bacteriorhodopsin reconstitution (1)
- band insulator (1)
- baryon stopping (1)
- beam energy scan (1)
- beam transport (1)
- behavioral performance (1)
- bilayer square lattice (1)
- bilinear model (1)
- bilineares Modell (1)
- binary systems (1)
- binocular rivalry (1)
- binocular vision (1)
- bistability (1)
- black hole (1)
- black lipid membrane (1)
- blue bronze (1)
- brightness (1)
- bulk observables (1)
- bunch-to-bucket (1)
- calorimeter: electromagnetic (1)
- capture processes (1)
- causality (1)
- cell internal structure (1)
- cell respiration (1)
- center-of-mass energy (1)
- central schemes (1)
- centrality (1)
- centrality dependence (1)
- change detection (1)
- chaos (1)
- charcoal (1)
- charge density wave (1)
- charge-cluster glass (1)
- charged kaon freeze-out (1)
- charmonium-like states (1)
- chemical vapor deposition (1)
- children (1)
- chiral effect (1)
- chiral imbalance (1)
- chiral perturbation theory (1)
- chromium (1)
- circadian rhythm (1)
- class separation (1)
- clathrates (1)
- closed orbit feedback system (1)
- closed-loop robots (1)
- cluster expansion model (1)
- cobalt (1)
- cognition (1)
- coherent emission (1)
- coherent state (1)
- coincidence detection (1)
- collective flow (1)
- commissioning (1)
- communication networks (1)
- complex networks (1)
- complex systems (1)
- compliant robot (1)
- computational imaging (1)
- computational methods (1)
- confinement (1)
- continuum model (1)
- correlations and fluctuations (1)
- cortex (1)
- cosmological constant (1)
- cosmology (1)
- coupled oscillators (1)
- critical point (1)
- crowd behaviour (1)
- crystal growth (1)
- cyclotron (1)
- dE/dx (1)
- damage detection (1)
- dark matter (1)
- dark matter experiments (1)
- data traffic (1)
- decelerated ions (1)
- decision making (1)
- deconfinement (1)
- dendrites (1)
- dense plasma target (1)
- density (1)
- deposition (1)
- deposition; dissociation; electron beam induced deposition (EBID); focused electron beam induced deposition (FEBID); precursor; trimethyl(methylcyclopentadienyl)platinum(IV) ((CH3-C5H4)Pt(CH3)3) (1)
- desorption (1)
- detector characterization (1)
- detectors (1)
- development (1)
- diagnostics (1)
- diffractive optics (1)
- diffusion model (1)
- digital communications (1)
- diphoton (1)
- dipole-dipole interaction (1)
- direct-write fabrications (1)
- dissipative fluid dynamics (1)
- dissociation (1)
- dissociative electron attachment (1)
- dissociative ionization (1)
- dynamical Higgs effect (1)
- dynamical mean-field theory (1)
- e+e − annihilation (1)
- e+e− Experiments (1)
- e+e− annihilation (1)
- early diabetes detection (1)
- echo-state networks (1)
- effective field theories (1)
- effective field theory (1)
- effective temperature (1)
- efficient coding (1)
- electric field (1)
- electrical characterization (1)
- electrical tests (1)
- electrical transport characteristics (1)
- electro-magnetic plasma (1)
- electromagnetic fields (1)
- electromagnetic orbital angular momentum (1)
- electromagnetic probes (1)
- electromagnetic vorticity (1)
- electromechanical impedance (1)
- electron (1)
- electron backscattering (1)
- electron induced deposition (1)
- electron molecule interaction (1)
- electron transfer (1)
- electron transport (1)
- electron tunneling (1)
- electron-lattice coupling (1)
- electron-phonon interactions (1)
- electron-positron collision (1)
- electronic structure (1)
- electronics: readout (1)
- electron–phonon coupling (1)
- electron−phonon interactions (1)
- electrostatics (1)
- elsarticle.cls (1)
- emittance (1)
- emotion theory (1)
- endoplasmic reticulum (1)
- endothelial cells (1)
- energy-dispersive x-ray spectroscopy (1)
- entropy limited hydrodynamics (1)
- envy (1)
- estimation methods (1)
- eta meson (1)
- evacuation (1)
- event pileup (1)
- exact exchange (1)
- excess kurtosis (1)
- excitation (1)
- excitation transport (1)
- excited nuclei (1)
- experimental results (1)
- extended Einstein gravity (1)
- extra dimensions (1)
- famotidine (1)
- faraday cup (1)
- fatigue testing (1)
- feelings (emotions) (1)
- fibre: optical (1)
- field-effect transistor (1)
- field-effect transistors (1)
- filter channel (1)
- finite baryon density (1)
- finite-temperature quantum-field theory (1)
- first order phase transition (1)
- flow allocation (1)
- flow anisotropies (1)
- fluctuation spectroscopy (1)
- fluctuations (1)
- fluctuations and correlations (1)
- flux growth (1)
- flux limiters (1)
- focused electron beam (1)
- focused electron beam-induced deposition (1)
- focused ion beam induced depositions (1)
- focused-electron-beam-induced deposition (FEBID); Monte Carlo simulation of electron transport; surface excitations; secondary-electron emission (1)
- formation length (1)
- free will (1)
- frequency beating (1)
- fullerene (1)
- functional principal component analysis (1)
- galactic chemical evolution (1)
- gamma) Reaktionen (1)
- gamma) reactions (1)
- gasous detectors (1)
- gauge theory (1)
- gauge/gravity duality (1)
- general relativity (1)
- generalized uncertainty principle (1)
- generative model (1)
- generatives Modell (1)
- genetic algorithm (1)
- geodesic equation (1)
- glass fiber reinforced materials (1)
- glass-like structural ordering (1)
- gold (1)
- granular ferromagnets (1)
- granulare Metalle (1)
- graph theory (1)
- graphene (1)
- gravitation (1)
- guiding principle (1)
- hadron spectroscopy (1)
- hadron transport (1)
- hadron-quark phase transition (1)
- half-integer resonance (1)
- heat shock protein (1)
- heavy fermions (1)
- heavy ion collision (1)
- heavy ion experiments (1)
- heavy ion fusion (1)
- heavy-ion (1)
- heavy-ion collision (1)
- heavy-ion collisions; (1)
- heavy-ion physics (1)
- heavy-ion storage rings (1)
- heavy-ions (1)
- heavy-quark effective theory (1)
- height of COG (1)
- helicity amplitude analysis (1)
- helium dimers (1)
- helium-beam radiography (1)
- hematological (1)
- heteronuclear FEBID precursors (1)
- hheterostructures (1)
- high (1)
- high energy astrophysics (1)
- high-Tc superconductivity (1)
- high-energy physics (1)
- high-resolution momentum spectroscopy (1)
- higher twist effects (1)
- highly parallel recordings (1)
- highly-charged ions (1)
- histamine (1)
- homeostasis (1)
- human intracranial recordings (1)
- human-body radiation (1)
- hybrid (1)
- hybrid star (1)
- hydrogen atmosphere (1)
- hydrogen energy levels (1)
- hypernuclear (1)
- impact parameter (1)
- in situ processing (1)
- in-medium modification (1)
- inclusive J/ψ decays (1)
- independent component analysis (1)
- inertial confinement fusion (1)
- infancy (1)
- inflammation (1)
- infrared laser test (1)
- infrared spectroscopy (1)
- injection system (1)
- instabilities (1)
- interactive visualization (1)
- interferometry (1)
- intermetallic compound (1)
- intra-dimer charge and spin degrees of freedom (1)
- intrinsic motivation (1)
- intrinsic plasticity (1)
- inverse kinematics (1)
- ion (1)
- ion stopping (1)
- ion-beam therapy (1)
- ionisierende Strahlung (1)
- ionizing radiation (1)
- ion–atom collisions (1)
- ion–molecule collisions (1)
- isospin (1)
- isospin asymmetric matter (1)
- isospin imbalance (1)
- isotopic abundance (1)
- jets (1)
- kagome lattices (1)
- kaltes Gastarget (1)
- kinematic collimation (1)
- kinematische Kollimation (1)
- kinetic approaches to dense matter (1)
- kinetic instabilities (1)
- large-scale integration of renewable power generation (1)
- large-scale integration of variable renewable generation (1)
- laser characterization (1)
- laser plasma emission (1)
- laser test (1)
- laser-ion acceleration (1)
- laser-matter interaction (1)
- lattice-supersolid (1)
- lawsHeavy-ion collisions (1)
- leukocytes (1)
- light harvesting networks (1)
- light nuclei (1)
- light nuclei production (1)
- light-driven ATP synthesis (1)
- light–energy conversion (1)
- limit cycles (1)
- line density (1)
- line element (1)
- linear sigma mode (1)
- liposomes (1)
- lithography (1)
- liver, pancreas (1)
- load and structural monitoring (1)
- local field potential (1)
- low dimensions (1)
- low-dose irradiation (1)
- low-mass dilepton (1)
- lower critical field (1)
- luminosity (1)
- machine learning (1)
- magnetic exchange beyond Heisenberg (1)
- magnetic nanostructures (1)
- magnetic nanowires (1)
- magnetic susceptibility (1)
- magnetism (1)
- magnon condensation (1)
- magnon-phonon interaction (1)
- magnon-phonon interactions (1)
- main phospholipid (1)
- malignancies (1)
- manganese (1)
- many particle entanglement (1)
- many-body blockade (1)
- many-body method (1)
- many-electron correlation (1)
- marine structures (1)
- mass degeneracy (1)
- mathematical model (1)
- maximum recoverable strain (1)
- membrane protein (1)
- membrane proteins (1)
- metal carbonyl (1)
- meteorological radar (1)
- metric tensor (1)
- micro Hall magnetometry (1)
- micro-Hall magnetometry (1)
- microdosimetry (1)
- micromagnetic simulations (1)
- micropillar compression (1)
- microwave breast imaging (1)
- millimeter wave radar (1)
- millimeter-wave spectroscopy (1)
- minimal length (1)
- model (1)
- modeling (1)
- modified Coulomb potential (1)
- moiré patterns (1)
- molecular electronic devices (1)
- molecular magnets (1)
- molecular modeling (1)
- molecular simulations (1)
- momentum spectrometer (1)
- monkeys (1)
- monte carlo simulations (1)
- multi-center magnons (1)
- multi-messenger (1)
- multi-orbital Hubbard model (1)
- multicoincidence imaging (1)
- multiparton interactions (1)
- multiunit activity (1)
- mushroom instability (1)
- music charts (1)
- n,p,π and Λ+Σ0 production (1)
- nano-fabrication (1)
- nano-printing (1)
- nanocarbon (1)
- nanoelectronic devices (1)
- nanofractal formation (1)
- nanofractal fragmentation (1)
- nanolesions (1)
- nanolithography (1)
- nanomagnetism (1)
- nanoparticle (1)
- nanostructured arrays (1)
- nanotechnology (1)
- nash equilibrium (1)
- natural scenes (1)
- natural tasks (1)
- near-field microscopy (1)
- net-proton fluctuations (1)
- networks (1)
- neutral mesons (1)
- neutral pion (1)
- neutron star (1)
- neutron star collisions (1)
- neutron star properties (1)
- neutron stars; (1)
- neutron-induced reactions (1)
- neutron-star-merger (1)
- next-to-leading order perturbative QCD calculations (1)
- nickel (1)
- nnp (1)
- non-Condon (1)
- non-equilibrium states (1)
- non-invasive diagnosis techniques (1)
- non-invasive test (1)
- non-neutral plasma (1)
- non-perturbative methods (1)
- noncommutative geometry (1)
- nonequilibrium phase transitions (1)
- nonneutral plasma (1)
- nuclear (1)
- nuclear collective model (1)
- nuclear modification (1)
- nuclear reaction cross sections (1)
- nuclear reaction cross-sections (1)
- nucleon coalescence (1)
- nuklear matter (1)
- nukleare Wirkungsquerschnitte (1)
- number of J/ψ events (1)
- numerical methods (1)
- numerical relativity (1)
- observational cosmology (1)
- omega stringer (1)
- on imaging (1)
- on-chip solutions (1)
- one-photon double ionization (1)
- open guided waves (1)
- open quantum systems (1)
- operation (1)
- optimal wind/solar mix (1)
- optimization (1)
- optische Potentiale (1)
- optokinetic nystagmus (1)
- organic compounds (1)
- organic conductor (1)
- organic semiconductor (1)
- organotypic slice culture (1)
- oxygen vacancies (1)
- oxysterol-binding protein homology protein (1)
- p A¯ reactions (1)
- p+p collisions (1)
- p-Linac (1)
- packaging (1)
- parity-doublet model (1)
- particle-theory and field-theory models of the early universe (1)
- passive imaging (1)
- path integral (1)
- patient study (1)
- patterning (1)
- pauli principle (1)
- percolation (1)
- perovskite oxides (1)
- phase shift (1)
- phase transitions (1)
- phonon (1)
- phosphatidylinositol 4-phosphate 5-kinase (1)
- phosphatidylserine (1)
- photochemistry (1)
- photons (1)
- photopolymerization (1)
- piezoresistivity (1)
- plasma ion beam interaction (1)
- plasma membrane (1)
- plasmonics (1)
- plasticity (1)
- platinum (1)
- polar coordinates (1)
- polarization (1)
- polarized radiation (1)
- polarons (1)
- power system analysis; (1)
- ppK − (1)
- precursor (1)
- precursor residence time (1)
- predictive modelling (1)
- prefrontal cortex (1)
- presolar grain (1)
- pressure (1)
- pressure sensors (1)
- projectile effective charge (1)
- protein coevolution (1)
- protein complex (1)
- protein stability (1)
- protein structures (1)
- proton countertransport (1)
- proton flow (1)
- proton permeability (1)
- proton-proton (1)
- pseudoelasticity (1)
- pyramidal neuron (1)
- p¯ + 40Ar → 40 Cl + (1)
- quadratic Lagrangian (1)
- quadratic temperature dependent resistivity (1)
- quadrupole (1)
- quality assurance (1)
- quantum (1)
- quantum criticality (1)
- quantum dots (1)
- quantum electrodynamics test (1)
- quantum hydrodynamics (1)
- quantum measurement (1)
- quantum spin frustration (1)
- quantum spin liquids (1)
- quantum spin system (1)
- quantum transport (1)
- quark deconfinement (1)
- quark matter (1)
- quark-gluon plasma temperature (1)
- quark‐gluon plasm (1)
- quasiparticle expansion (1)
- quintessence (1)
- r-Prozess (1)
- radar detection (1)
- radar imaging (1)
- radar signal processing (1)
- radar-based structural health monitoring (1)
- radiation hard sensor (1)
- radon (1)
- rain (1)
- reaction rate (1)
- recurrent networks (1)
- recurrent neural networks (1)
- reference damage (1)
- relativistic astrophysics (1)
- relativistic collisions (1)
- relativistic fluid dynamics (1)
- relativistic heavy ion reactions (1)
- relativity and gravitation (1)
- remote sensing by radar (1)
- resonance properties (1)
- resonant (1)
- reversible figures (1)
- rfq (1)
- robophysics (1)
- s-SNOM (1)
- saturation (1)
- scanning Hall probe microscopy (1)
- scanning laser Doppler vibrometry (1)
- scanning probe microscopy (1)
- science of sciences (1)
- self-organization (1)
- self-organized criticalit (1)
- self-organized criticality (1)
- self-organized locomotion (1)
- semiconductors (1)
- semiexclusive processes (1)
- sensorimotor loop (1)
- shear stress (1)
- sign problem (1)
- signal processing (1)
- silicon detector (1)
- silicon sensor (1)
- simulations (1)
- single crystal growth (1)
- single-shot measurement (1)
- site-directed spin labeling (1)
- slabs (1)
- slowness Lernen (1)
- slowness learning (1)
- small systems (1)
- smooth pursuit (1)
- social acceleration (1)
- social classes (1)
- social modelling (1)
- social stratification (1)
- sociophysics (1)
- soft photons (1)
- solar physics (1)
- space charge (1)
- space charge distortions (1)
- sparse coding (1)
- specific heat (1)
- spectators (1)
- spectra (1)
- spectral radius (1)
- spectroscopy (1)
- spike train analysis (1)
- spiking neural networks (1)
- spin labeling (1)
- spin polarization (1)
- spin wave (1)
- spintronics (1)
- spontaneous symmetry breaking (1)
- stability (1)
- stability matrix eigenvalues (1)
- starke Magnetfelder (1)
- statistical model (1)
- sterol (1)
- stimulus coding (1)
- storage ring (1)
- strain sensing (1)
- strangeness enhancement (1)
- strategy condensation (1)
- string T-duality (1)
- strong Coulomb field (1)
- strong correlations (1)
- strongly correlated electrons (1)
- strontium vanadate epitaxial films (1)
- structural biology (1)
- su(2) x u(2) (1)
- sub-threshold (1)
- subthreshold (1)
- superconducting devices (1)
- superconductivity (1)
- superconductor-to-metal transition (1)
- superdeterminism (1)
- supervised learning (1)
- supraleitend (1)
- surface plasmon polaritons (1)
- surface reconstruction (1)
- surface science (1)
- surface waves (1)
- surrogate reactions (1)
- sustained hyperglycemia (1)
- symmetry energy (1)
- synaptic scaling (1)
- synchronization (1)
- synchronization two rings (1)
- synchronized oscillators (1)
- synchrotron emission (1)
- synthetic aperture radar (1)
- target (1)
- terahertz emission (1)
- terahertz magnetometry (1)
- terahertz photons (1)
- terahertz sensing (1)
- teraherz imaging systems (1)
- teraherz nano-imaging and nanoscopy (1)
- tetraether lipid (1)
- tetraquark (1)
- tetraquarks (1)
- the Weibel instability (1)
- theoretical biology (1)
- theory mind (1)
- thermal expansion (1)
- thermal transition (1)
- thermoadaptation (1)
- thermodynamic functions and equations of state (1)
- thermodynamic properties (1)
- thermodynamics (1)
- thermoelectric material (1)
- thermoelectrics (1)
- theta-pinch (1)
- three-dimensional nanostructures (1)
- time scales (1)
- time series prediction (1)
- time-resolved (1)
- tip fabrication (1)
- toll-like receptor (1)
- top-down control (1)
- topological states (1)
- toroidales Magnetfeld (1)
- torsion (1)
- total cross-section (1)
- tracking (1)
- transient interaction (1)
- transmission cost allocation (1)
- transmission grid extensions (1)
- transport (1)
- transport models (1)
- transport models quark-gluon plasma (1)
- transvers beam dynamics (1)
- triangular flow (1)
- tungsten (1)
- two-electron systems (1)
- ultracold quantum gases (1)
- ultraperipheral and central heavy ion collisions (1)
- ultrashort laser pulses (1)
- unconventional superconductor (1)
- unsaturated phospholipid (1)
- van der Waals (1)
- vanadium (1)
- vanadium oxides (1)
- vapor-liquid-solid mechanism (1)
- variational Monte Carlo (1)
- vibronic (1)
- virtual photon emission (1)
- viscosity (1)
- viscous cosmology (1)
- viscous hydrodynamics (1)
- visual short-term memory (1)
- visual working memory (1)
- washboard pinning potential (1)
- white and brown dwarfs (1)
- wind (1)
- wind energy (1)
- wind turbine blades (1)
- wind turbines (1)
- wwPDB (1)
- x-ray techniques (1)
- yttrium-iron garnet (1)
- zero-point length (1)
- zerstörungsfrei (1)
- Θ+ pentaquark (1)
- Λ+c baryon (1)
- β-barrel assembly machinery (BAM) complex (1)
- γ-ray spectroscopy (1)
- γ-spectroscopy (1)
- η/s (1)
- κ meson (1)
- φ feed-down (1)
- √sN N = 2.76 TeV (1)
- field-effect transistor (1)
Institute
- Physik (3299) (remove)
A light scalar X0 or vector X1 particles have been introduced as a possible explanation for the (g−2)μ anomaly and dark matter phenomena.
Using (8.998±0.039)×109 $\jpsi$ events collected by the BESIII detector, we search for a light muon philic scalar X0 or vector X1 in the processes J/ψ→μ+μ−X0,1 with X0,1 invisible decays. No obvious signal is found, and the upper limits on the coupling g′0,1 between the muon and the X0,1 particles are set to be between 1.1×10−3 and 1.0×10−2 for the X0,1 mass in the range of 1<M(X0,1)<1000~MeV/c2 at 90% confidence level.
A light scalar X0 or vector X1 particles have been introduced as a possible explanation for the (g−2)μ anomaly and dark matter phenomena.
Using (8.998±0.039)×109 $\jpsi$ events collected by the BESIII detector, we search for a light muon philic scalar X0 or vector X1 in the processes J/ψ→μ+μ−X0,1 with X0,1 invisible decays. No obvious signal is found, and the upper limits on the coupling g′0,1 between the muon and the X0,1 particles are set to be between 1.1×10−3 and 1.0×10−2 for the X0,1 mass in the range of 1<M(X0,1)<1000 MeV/c2 at 90% confidence level.
The Cabbibo-favored decay Λ+c→Ξ0K+π0 is studied for the first time using 6.1 fb−1 of e+e− collision data at center-of-mass energies between 4.600 and 4.840 GeV, collected with the BESIII detector at the BEPCII collider. With a double-tag method, the branching fraction of the three-body decay Λ+c→Ξ0K+π0 is measured to be (7.79±1.46±0.71)×10−3, where the first and second uncertainties are statistical and systematic, respectively. The branching fraction of the two-body decay Λ+c→Ξ(1530)0K+ is (5.99±1.04±0.29)×10−3, which is consistent with the previous result of (5.02±0.99±0.31)×10−3. In addition, the upper limit on the branching fraction of the doubly Cabbibo-suppressed decay Λ+c→nK+π0 is 7.1×10−4 at the 90% confidence level. The upper limits on the branching fractions of Λ+c→Σ0K+π0 and ΛK+π0 are also determined to be 1.8×10−3 and 2.0×10−3, respectively.
The Cabbibo-favored decay Λ+c→Ξ0K+π0 is studied for the first time using 6.1 fb−1 of e+e− collision data at center-of-mass energies between 4.600 and 4.840 GeV, collected with the BESIII detector at the BEPCII collider. With a double-tag method, the branching fraction of the three-body decay Λ+c→Ξ0K+π0 is measured to be (7.79±1.46±0.71)×10−3, where the first and second uncertainties are statistical and systematic, respectively. The branching fraction of the two-body decay Λ+c→Ξ(1530)0K+ is (5.99±1.04±0.29)×10−3, which is consistent with the previous result of (5.02±0.99±0.31)×10−3. In addition, the upper limit on the branching fraction of the doubly Cabbibo-suppressed decay Λ+c→nK+π0 is 7.1×10−4 at the 90% confidence level. The upper limits on the branching fractions of Λ+c→Σ0K+π0 and ΛK+π0 are also determined to be 1.8×10−3 and 2.0×10−3, respectively.
The Cabbibo-favored decay Λ+c→Ξ0K+π0 is studied for the first time using 6.1 fb−1 of e+e− collision data at center-of-mass energies between 4.600 and 4.840 GeV, collected with the BESIII detector at the BEPCII collider. With a double-tag method, the branching fraction of the three-body decay Λ+c→Ξ0K+π0 is measured to be (7.79±1.46±0.71)×10−3, where the first and second uncertainties are statistical and systematic, respectively. The branching fraction of the two-body decay Λ+c→Ξ(1530)0K+ is (5.99±1.04±0.29)×10−3, which is consistent with the previous result of (5.02±0.99±0.31)×10−3. In addition, the upper limit on the branching fraction of the doubly Cabbibo-suppressed decay Λ+c→nK+π0 is 7.1×10−4 at the 90% confidence level. The upper limits on the branching fractions of Λ+c→Σ0K+π0 and ΛK+π0 are also determined to be 1.8×10−3 and 2.0×10−3, respectively.
The processes 𝑒+𝑒−→𝐷+ 𝑠𝐷𝑠1(2460)−+c.c. and 𝑒+𝑒−→𝐷*+ 𝑠𝐷𝑠1(2460)−+c.c. are studied for the first time using data samples collected with the BESIII detector at the BEPCII collider. The Born cross sections of 𝑒+𝑒−→𝐷+ 𝑠𝐷𝑠1(2460)−+c.c. at nine center-of-mass energies between 4.467 GeV and 4.600 GeV and those of 𝑒+𝑒−→𝐷*+ 𝑠𝐷𝑠1(2460)−+c.c. at √𝑠=4.590 GeV and 4.600 GeV are measured. No obvious charmonium or charmoniumlike structure is seen in the measured cross sections.
canning tunneling microscopy (STM) is perhaps the most promising way to detect the superconducting gap size and structure in the canonical unconventional superconductor Sr2RuO4 directly. However, in many cases, researchers have reported being unable to detect the gap at all in simple STM conductance measurements. Recently, an investigation of this issue on various local topographic structures on a Sr-terminated surface found that superconducting spectra appeared only in the region of small nanoscale canyons, corresponding to the removal of one RuO surface layer. Here, we analyze the electronic structure of various possible surface structures using first principles methods, and argue that bulk conditions favorable for superconductivity can be achieved when removal of the RuO layer suppresses the RuO4 octahedral rotation locally. We further propose alternative terminations to the most frequently reported Sr termination where superconductivity surfaces should be observed.
Motivated by the on-going discussion on the nature of magnetism in the quantum Ising chain CoNb2O6, we present a first-principles-based analysis of its exchange interactions by applying an \textit{ab initio} approach with additional modelling that accounts for various drawbacks of a purely density functional theory ansatz. With this method we are able to extract and understand the origin of the magnetic couplings under inclusion of all symmetry-allowed terms, and to resolve the conflicting model descriptions in CoNb2O6. We find that the twisted Kitaev chain and the transverse-field ferromagnetic Ising chain views are mutually compatible, although additional off-diagonal exchanges are necessary to provide a complete picture. We show that the dominant exchange interaction is a ligand-centered exchange process - involving the eg electrons -, which is rendered anisotropic by the low-symmetry crystal fields environments in CoNb2O6, giving rise to the dominant Ising exchange, while the smaller bond-dependent anisotropies are found to originate from d−d kinetic exchange processes involving the t2g electrons. We demonstrate the validity of our approach by comparing the predictions of the obtained low-energy model to measured THz and inelastic neutron scattering spectra.
he family of cubic noncentrosymmetric 3-4-3 compounds has become a fertile ground for the discovery of novel correlated metallic and insulating phases. Here, we report the synthesis of a new heavy fermion compound, Ce3Bi4Ni3. It is an isoelectronic analog of the prototypical Kondo insulator Ce3Bi4Pt3 and of the recently discovered Weyl-Kondo semimetal Ce3Bi4Pd3. In contrast to the volume-preserving Pt-Pd substitution, structural and chemical analyses reveal a positive chemical pressure effect in Ce3Bi4Ni3 relative to its heavier counterparts. Based on the results of electrical resistivity, Hall effect, magnetic susceptibility, and specific heat measurements, we identify an energy gap of 65–70 meV, about eight times larger than that in Ce3Bi4Pt3 and about 45 times larger than that of the Kondo-insulating background hosting the Weyl nodes in Ce3Bi4Pd3. We show that this gap as well as other physical properties do not evolve monotonically with increasing atomic number, i.e., in the sequence Ce3Bi4Ni3−Ce3Bi4Pd3−Ce3Bi4Pt3, but instead with increasing partial electronic density of states of the 𝑑 orbitals at the Fermi energy. This work opens the possibility to investigate the conditions under which topological states develop in this series of strongly correlated 3-4-3 materials.
Motivated by recently reported magnetic-field induced topological phases in ultracold atoms and correlated Moiré materials, we investigate topological phase transitions in a minimal model consisting of interacting spinless fermions described by the Hofstadter model on a square lattice. For interacting lattice Hamiltonians in the presence of a commensurate magnetic flux it has been demonstrated that the quantized Hall conductivity is constrained by a Lieb-Schultz-Mattis (LSM)-type theorem due to magnetic translation symmetry. In this work, we revisit the validity of the theorem for such models and establish that a topological phase transition from a topological to a trivial insulating phase can be realized but must be accompanied by spontaneous magnetic translation symmetry breaking caused by charge ordering of the spinless fermions. To support our findings, the topological phase diagram for varying interaction strength is mapped out numerically with exact diagonalization for different flux quantum ratios and band fillings using symmetry indicators. We discuss our results in the context of the LSM-type theorem.
Chern numbers can be calculated within a frame of vortex fields related to phase conventions of a wave function. In a band protected by gaps the Chern number is equivalent to the total number of flux carrying vortices. In the presence of topological defects like Dirac cones this method becomes problematic, in particular if they lack a well-defined winding number. We develop a scheme to include topological defects into the vortex field frame. A winding number is determined by the behavior of the phase in reciprocal space when encircling the defect's contact point. To address the possible lack of a winding number we utilize a more general concept of winding vectors. We demonstrate the usefulness of this ansatz on Dirac cones generated from bands of the Hofstadter model.
Chern numbers can be calculated within a frame of vortex fields related to phase conventions of a wave function. In a band protected by gaps the Chern number is equivalent to the total number of flux carrying vortices. In the presence of topological defects like Dirac cones this method becomes problematic, in particular if they lack a well-defined winding number. We develop a scheme to include topological defects into the vortex field frame. A winding number is determined by the behavior of the phase in reciprocal space when encircling the defect's contact point. To address the possible lack of a winding number we utilize a more general concept of winding vectors. We demonstrate the usefulness of this ansatz on Dirac cones generated from bands of the Hofstadter model.
Chern numbers can be calculated within a frame of vortex fields related to phase conventions of a wave function. In a band protected by gaps the Chern number is equivalent to the total number of flux carrying vortices. In the presence of topological defects like Dirac cones this method becomes problematic, in particular if they lack a well-defined winding number. We develop a scheme to include topological defects into the vortex field frame. A winding number is determined by the behavior of the phase in reciprocal space when encircling the defect's contact point. To address the possible lack of a winding number we utilize a more general concept of winding vectors. We demonstrate the usefulness of this ansatz on Dirac cones generated from bands of the Hofstadter model.
Using a sample of 106 million 𝜓(3686) decays, 𝜓(3686)→𝛾𝜒𝑐𝐽(𝐽=0,1,2) and 𝜓(3686)→𝛾𝜒𝑐𝐽,𝜒𝑐𝐽→𝛾𝐽/𝜓(𝐽=1,2) events are utilized to study inclusive 𝜒𝑐𝐽→anything, 𝜒𝑐𝐽→hadrons, and 𝐽/𝜓→anything distributions, including distributions of the number of charged tracks, electromagnetic calorimeter showers, and 𝜋0s, and to compare them with distributions obtained from the BESIII Monte Carlo simulation. Information from each Monte Carlo simulated decay event is used to construct matrices connecting the detected distributions to the input predetection “produced” distributions. Assuming these matrices also apply to data, they are used to predict the analogous produced distributions of the decay events. Using these, the charged particle multiplicities are compared with results from MARK I. Further, comparison of the distributions of the number of photons in data with those in Monte Carlo simulation indicates that G-parity conservation should be taken into consideration in the simulation.
Using 2.93 fb−1 of 𝑒+𝑒− collision data taken at a center-of-mass energy of 3.773 GeV by the BESIII detector at the BEPCII, we measure the branching fractions of the singly Cabibbo-suppressed decays 𝐷→𝜔𝜋𝜋 to be ℬ(𝐷0→𝜔𝜋+𝜋−)=(1.33±0.16±0.12)×10−3 and ℬ(𝐷+→𝜔𝜋+𝜋0)=(3.87±0.83±0.25)×10−3, where the first uncertainties are statistical and the second ones systematic. The statistical significances are 12.9𝜎 and 7.7𝜎, respectively. The precision of ℬ(𝐷0→𝜔𝜋+𝜋−) is improved by a factor of 2.1 over prior measurements, and ℬ(𝐷+→𝜔𝜋+𝜋0) is measured for the first time. No significant signal for 𝐷0→𝜔𝜋0𝜋0 is observed, and the upper limit on the branching fraction is ℬ(𝐷0→𝜔𝜋0𝜋0)<1.10×10−3 at the 90% confidence level. The branching fractions of 𝐷→𝜂𝜋𝜋 are also measured and consistent with existing results.
The family of cubic noncentrosymmetric 3-4-3 compounds has become a fertile ground for the discovery of novel correlated metallic and insulating phases. Here, we report the synthesis of a new heavy fermion compound, Ce3Bi4Ni3. It is an isoelectronic analog of the prototypical Kondo insulator Ce3Bi4Pt3 and of the recently discovered Weyl-Kondo semimetal Ce3Bi4Pd3. In contrast to the volume-preserving Pt-Pd substitution, structural and chemical analyses reveal a positive chemical pressure effect in Ce3Bi4Ni3 relative to its heavier counterparts. Based on the results of electrical resistivity, Hall effect, magnetic susceptibility, and specific heat measurements, we identify an energy gap of 65-70 meV, about eight times larger than that in Ce3Bi4Pt3 and about 45 times larger than that of the Kondo-insulating background hosting the Weyl nodes in Ce3Bi4Pd3. We show that this gap as well as other physical properties do not evolve monotonically with increasing atomic number, i.e., in the sequence Ce3Bi4Ni3-Ce3Bi4Pd3-Ce3Bi4Pt3, but instead with increasing partial electronic density of states of the d orbitals at the Fermi energy. To understand under which condition topological states form in these materials is a topic for future studies.
The family of cubic noncentrosymmetric 3-4-3 compounds has become a fertile ground for the discovery of novel correlated metallic and insulating phases. Here, we report the synthesis of a new heavy fermion compound, Ce3Bi4Ni3. It is an isoelectronic analog of the prototypical Kondo insulator Ce3Bi4Pt3 and of the recently discovered Weyl-Kondo semimetal Ce3Bi4Pd3. In contrast to the volume-preserving Pt-Pd substitution, structural and chemical analyses reveal a positive chemical pressure effect in Ce3Bi4Ni3 relative to its heavier counterparts. Based on the results of electrical resistivity, Hall effect, magnetic susceptibility, and specific heat measurements, we identify an energy gap of 65-70 meV, about 8 times larger than that in Ce3Bi4Pt3 and about 45 times larger than that of the Kondo-insulating background hosting the Weyl nodes in Ce3Bi4Pd3. We show that this gap as well as other physical properties do not evolve monotonically with increasing atomic number, i.e., in the sequence Ce3Bi4Ni3-Ce3Bi4Pd3-Ce3Bi4Pt3, but instead with increasing partial electronic density of states of the d orbitals at the Fermi energy. To understand under which condition topological states form in these materials is a topic for future studies.
Heterostructures of graphene in proximity to magnetic insulators open the possibility to investigate exotic states emerging from the interplay of magnetism, strain and charge transfer between the layers. Recent reports on the growth of self-integrated atomic wires of β-RuCl3 on graphite suggest these materials as versatile candidates to investigate these effects. Here we present detailed first principles calculations on the charge transfer and electronic structure of β-RuCl3/heterostructures and provide a comparison with the work function analysis of the related honeycomb family members α-RuX3 (X = Cl,Br,I). We find that proximity of the two layers leads to a hole-doped graphene and electron-doped RuX3 in all cases, which is sensitively dependent on the distance between the two layers. Furthermore, strain effects due to lattice mismatch control the magnetization which itself has a strong effect on the charge transfer. Charge accumulation in β-RuCl3 strongly drops away from the chain making such heterostructures suitable candidates for sharp interfacial junctions in graphene-based devices.
Using a data set corresponding to an integrated luminosity of 6.32 fb−1 recorded by the BESIII detector at center-of-mass energies between 4.178 and 4.226 GeV, an amplitude analysis of the decay D+s → π+π0π0 is performed, and the relative fractions and phases of different intermediate processes are determined. The absolute branching fraction of the decay D+s → π+π0π0 is measured to be (0.50 ± 0.04stat ± 0.02syst)%. Theabsolute branching fraction of the intermediate process D+s → f0(980)π+, f0(980) → π0π0 is determined to be (0.28 ± 0.04stat ± 0.04syst)%.
We report an amplitude analysis and branching fraction measurement of 𝐷+
𝑠→𝐾+𝐾−𝜋+ decay using a data sample of 3.19 fb−1 recorded with BESIII detector at a center-of-mass energy of 4.178 GeV. We perform a model-independent partial wave analysis in the low 𝐾+𝐾− mass region to determine the 𝐾+𝐾− S-wave line shape, followed by an amplitude analysis of our very pure high-statistics sample. With the detection efficiency based on the amplitude analysis results, the absolute branching fraction is measured to be ℬ(𝐷+𝑠→𝐾+𝐾−𝜋+)=(5.47±0.08stat±0.13sys)%.