Listing 1 - 6 of 6 |
Sort by
|
Choose an application
The present collection of articles focuses on different aspects of topological-materials studies. Recent progress in both, theoretical and experimental, studies is covered in this Special Issue. A particular stress is given on different optical investigations, as well as on recent band-structure calculations. Besides, neutron scattering experiments, crystal growth, and a number of theoretical models for different topological systems are discussed.
Research & information: general --- Physics --- topological insulators --- optical conductivity --- Dirac materials --- Weyl nodes --- screw rotation symmetry --- line node --- space group 19 --- space group 61 --- cyclotron resonance --- crystal growth --- optical floating zone method --- SmB6 --- Sm1-xCexB6 --- topological insulator --- kondo insulator --- topology --- chirality --- multifold semimetal --- optics --- DFT --- topological semimetal --- cobalt monosilicide --- mechanical deformation --- quantum anomalous Hall effect --- Faraday rotation --- terahertz spectroscopy --- inelastic neutron scattering --- topological materials --- anomalous Hall effect --- isotropic ferromagnet --- kagome --- frustrated magnetism --- skyrmion --- magnetization --- optical-conductivity scaling --- topological semimetals --- band structures --- high Chern numbers --- bulk-edge correspondence --- Weyl semimetals --- band-structure calculations --- optical response --- n/a
Choose an application
Molecular magnets show many properties not met in conventional metallic magnetic materials, i.e. low density, transparency to electromagnetic radiation, sensitivity to external stimuli such as light, pressure, temperature, chemical modification or magnetic/electric fields, and others. They can serve as “functional” materials in sensors of different types or be applied in high-density magnetic storage or nanoscale devices. Research into molecule-based materials became more intense at the end of the 20th century and is now an important branch of modern science. The articles in this Special Issue, written by physicists and chemists, reflect the current work on molecular magnets being carried out in several research centers. Theoretical papers in the issue concern the influence of spin anisotropy in the low dimensional lattice of the resulting type of magnet, as well as thermodynamics and magnetic excitations in spin trimers. The impact of external pressure on structural and magnetic properties and its underlying mechanisms is described using the example of Prussian blue analogue data. The other functionality discussed is the magnetocaloric effect, investigated in coordination polymers and high spin clusters. In this issue, new molecular magnets are presented: (i) ferromagnetic high-spin [Mn6] single-molecule magnets, (ii) solvatomagnetic compounds changing their structure and magnetism dependent on water content, and (iii) a family of purely organic magnetic materials. Finally, an advanced calorimetric study of anisotropy in magnetic molecular superconductors is reviewed.
molecular magnetism --- phase diagram --- superconductivity --- molecular magnets --- magnetism --- thermodynamics --- ?-d system --- cyclam --- critical behaviour --- redox --- exact diagonalization --- salicylamidoxime --- thermodynamic measurement --- magnetic conductor --- quantum magnet --- radical anion --- single crystal heat capacity measurement --- effect of high pressure --- square lattice --- single-molecule magnets --- cyano bridge --- Berezinskii-Kosterlitz-Thouless phase transition --- coordination polymers --- Prussian blue analogues --- chain --- antiferromagnetism --- dioxothiadiazole --- inelastic neutron scattering --- spin anisotropy --- rectangular lattice --- superexchange interaction --- Heisenberg exchange Hamiltonian --- Heisenberg --- S = 1/2 XXZ model --- antiferromagnetic coupling --- manganese(III) --- spin clusters --- magnetic properties --- magnetocaloric effect --- crystal structure --- copper(II) --- octacyanotungstate(V) --- octacyanometallates
Choose an application
Molecular magnets show many properties not met in conventional metallic magnetic materials, i.e. low density, transparency to electromagnetic radiation, sensitivity to external stimuli such as light, pressure, temperature, chemical modification or magnetic/electric fields, and others. They can serve as “functional” materials in sensors of different types or be applied in high-density magnetic storage or nanoscale devices. Research into molecule-based materials became more intense at the end of the 20th century and is now an important branch of modern science. The articles in this Special Issue, written by physicists and chemists, reflect the current work on molecular magnets being carried out in several research centers. Theoretical papers in the issue concern the influence of spin anisotropy in the low dimensional lattice of the resulting type of magnet, as well as thermodynamics and magnetic excitations in spin trimers. The impact of external pressure on structural and magnetic properties and its underlying mechanisms is described using the example of Prussian blue analogue data. The other functionality discussed is the magnetocaloric effect, investigated in coordination polymers and high spin clusters. In this issue, new molecular magnets are presented: (i) ferromagnetic high-spin [Mn6] single-molecule magnets, (ii) solvatomagnetic compounds changing their structure and magnetism dependent on water content, and (iii) a family of purely organic magnetic materials. Finally, an advanced calorimetric study of anisotropy in magnetic molecular superconductors is reviewed.
molecular magnetism --- phase diagram --- superconductivity --- molecular magnets --- magnetism --- thermodynamics --- ?-d system --- cyclam --- critical behaviour --- redox --- exact diagonalization --- salicylamidoxime --- thermodynamic measurement --- magnetic conductor --- quantum magnet --- radical anion --- single crystal heat capacity measurement --- effect of high pressure --- square lattice --- single-molecule magnets --- cyano bridge --- Berezinskii-Kosterlitz-Thouless phase transition --- coordination polymers --- Prussian blue analogues --- chain --- antiferromagnetism --- dioxothiadiazole --- inelastic neutron scattering --- spin anisotropy --- rectangular lattice --- superexchange interaction --- Heisenberg exchange Hamiltonian --- Heisenberg --- S = 1/2 XXZ model --- antiferromagnetic coupling --- manganese(III) --- spin clusters --- magnetic properties --- magnetocaloric effect --- crystal structure --- copper(II) --- octacyanotungstate(V) --- octacyanometallates
Choose an application
The present collection of articles focuses on different aspects of topological-materials studies. Recent progress in both, theoretical and experimental, studies is covered in this Special Issue. A particular stress is given on different optical investigations, as well as on recent band-structure calculations. Besides, neutron scattering experiments, crystal growth, and a number of theoretical models for different topological systems are discussed.
topological insulators --- optical conductivity --- Dirac materials --- Weyl nodes --- screw rotation symmetry --- line node --- space group 19 --- space group 61 --- cyclotron resonance --- crystal growth --- optical floating zone method --- SmB6 --- Sm1-xCexB6 --- topological insulator --- kondo insulator --- topology --- chirality --- multifold semimetal --- optics --- DFT --- topological semimetal --- cobalt monosilicide --- mechanical deformation --- quantum anomalous Hall effect --- Faraday rotation --- terahertz spectroscopy --- inelastic neutron scattering --- topological materials --- anomalous Hall effect --- isotropic ferromagnet --- kagome --- frustrated magnetism --- skyrmion --- magnetization --- optical-conductivity scaling --- topological semimetals --- band structures --- high Chern numbers --- bulk-edge correspondence --- Weyl semimetals --- band-structure calculations --- optical response --- n/a
Choose an application
Molecular magnets show many properties not met in conventional metallic magnetic materials, i.e. low density, transparency to electromagnetic radiation, sensitivity to external stimuli such as light, pressure, temperature, chemical modification or magnetic/electric fields, and others. They can serve as “functional” materials in sensors of different types or be applied in high-density magnetic storage or nanoscale devices. Research into molecule-based materials became more intense at the end of the 20th century and is now an important branch of modern science. The articles in this Special Issue, written by physicists and chemists, reflect the current work on molecular magnets being carried out in several research centers. Theoretical papers in the issue concern the influence of spin anisotropy in the low dimensional lattice of the resulting type of magnet, as well as thermodynamics and magnetic excitations in spin trimers. The impact of external pressure on structural and magnetic properties and its underlying mechanisms is described using the example of Prussian blue analogue data. The other functionality discussed is the magnetocaloric effect, investigated in coordination polymers and high spin clusters. In this issue, new molecular magnets are presented: (i) ferromagnetic high-spin [Mn6] single-molecule magnets, (ii) solvatomagnetic compounds changing their structure and magnetism dependent on water content, and (iii) a family of purely organic magnetic materials. Finally, an advanced calorimetric study of anisotropy in magnetic molecular superconductors is reviewed.
molecular magnetism --- phase diagram --- superconductivity --- molecular magnets --- magnetism --- thermodynamics --- ?-d system --- cyclam --- critical behaviour --- redox --- exact diagonalization --- salicylamidoxime --- thermodynamic measurement --- magnetic conductor --- quantum magnet --- radical anion --- single crystal heat capacity measurement --- effect of high pressure --- square lattice --- single-molecule magnets --- cyano bridge --- Berezinskii-Kosterlitz-Thouless phase transition --- coordination polymers --- Prussian blue analogues --- chain --- antiferromagnetism --- dioxothiadiazole --- inelastic neutron scattering --- spin anisotropy --- rectangular lattice --- superexchange interaction --- Heisenberg exchange Hamiltonian --- Heisenberg --- S = 1/2 XXZ model --- antiferromagnetic coupling --- manganese(III) --- spin clusters --- magnetic properties --- magnetocaloric effect --- crystal structure --- copper(II) --- octacyanotungstate(V) --- octacyanometallates --- molecular magnetism --- phase diagram --- superconductivity --- molecular magnets --- magnetism --- thermodynamics --- ?-d system --- cyclam --- critical behaviour --- redox --- exact diagonalization --- salicylamidoxime --- thermodynamic measurement --- magnetic conductor --- quantum magnet --- radical anion --- single crystal heat capacity measurement --- effect of high pressure --- square lattice --- single-molecule magnets --- cyano bridge --- Berezinskii-Kosterlitz-Thouless phase transition --- coordination polymers --- Prussian blue analogues --- chain --- antiferromagnetism --- dioxothiadiazole --- inelastic neutron scattering --- spin anisotropy --- rectangular lattice --- superexchange interaction --- Heisenberg exchange Hamiltonian --- Heisenberg --- S = 1/2 XXZ model --- antiferromagnetic coupling --- manganese(III) --- spin clusters --- magnetic properties --- magnetocaloric effect --- crystal structure --- copper(II) --- octacyanotungstate(V) --- octacyanometallates
Choose an application
The present collection of articles focuses on different aspects of topological-materials studies. Recent progress in both, theoretical and experimental, studies is covered in this Special Issue. A particular stress is given on different optical investigations, as well as on recent band-structure calculations. Besides, neutron scattering experiments, crystal growth, and a number of theoretical models for different topological systems are discussed.
Research & information: general --- Physics --- topological insulators --- optical conductivity --- Dirac materials --- Weyl nodes --- screw rotation symmetry --- line node --- space group 19 --- space group 61 --- cyclotron resonance --- crystal growth --- optical floating zone method --- SmB6 --- Sm1-xCexB6 --- topological insulator --- kondo insulator --- topology --- chirality --- multifold semimetal --- optics --- DFT --- topological semimetal --- cobalt monosilicide --- mechanical deformation --- quantum anomalous Hall effect --- Faraday rotation --- terahertz spectroscopy --- inelastic neutron scattering --- topological materials --- anomalous Hall effect --- isotropic ferromagnet --- kagome --- frustrated magnetism --- skyrmion --- magnetization --- optical-conductivity scaling --- topological semimetals --- band structures --- high Chern numbers --- bulk-edge correspondence --- Weyl semimetals --- band-structure calculations --- optical response --- topological insulators --- optical conductivity --- Dirac materials --- Weyl nodes --- screw rotation symmetry --- line node --- space group 19 --- space group 61 --- cyclotron resonance --- crystal growth --- optical floating zone method --- SmB6 --- Sm1-xCexB6 --- topological insulator --- kondo insulator --- topology --- chirality --- multifold semimetal --- optics --- DFT --- topological semimetal --- cobalt monosilicide --- mechanical deformation --- quantum anomalous Hall effect --- Faraday rotation --- terahertz spectroscopy --- inelastic neutron scattering --- topological materials --- anomalous Hall effect --- isotropic ferromagnet --- kagome --- frustrated magnetism --- skyrmion --- magnetization --- optical-conductivity scaling --- topological semimetals --- band structures --- high Chern numbers --- bulk-edge correspondence --- Weyl semimetals --- band-structure calculations --- optical response
Listing 1 - 6 of 6 |
Sort by
|