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Spin waves --- Ferromagnets --- Antiferromagnets

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Antiferromagnetic spintronics is an emerging topic in spintronics that is attracting interest due to its wide range of advantages, including terahertz operation, memory without stray fields, and highly efficient spin generation. The discussion of this topic covers aspects ranging from the development of new antiferromagnetic materials to the applications of these materials in devices. Traditionally, antiferromagnets were treated as less common magnetic materials for fundamental studies and applications. However, recent miniaturisation and high-frequency operation have revealed that they are advantageous over conventional ferromagnets. This Special Issue reviews the current status and future perspectives of antiferromagnetic spintronics.

Technology: general issues --- History of engineering & technology --- Energy industries & utilities --- magnetoelectric effect --- antiferromagnetism --- Cr2O3 thin film --- exchange bias --- antiferromagnetic spintronics --- spintronics --- MnN --- magnetism and magnetic materials --- antiferromagnets --- Heusler alloys --- blocking temperature --- spintronic devices --- perpendicular magnetic anisotropy --- ferrimagnet --- perpendicular exchange bias --- amorphous thin films --- spintronic applications --- magnons --- synthetic antiferromagnets --- antiferromagnetic resonance --- micromagnetics --- spin pumping --- spin-orbit torque --- insulating antiferromagnet --- sub-terahertz waves --- spin-Hall effect --- garnet ferrite --- compensated ferrimagnet --- metal organic decomposition --- magnetoelectric effect --- antiferromagnetism --- Cr2O3 thin film --- exchange bias --- antiferromagnetic spintronics --- spintronics --- MnN --- magnetism and magnetic materials --- antiferromagnets --- Heusler alloys --- blocking temperature --- spintronic devices --- perpendicular magnetic anisotropy --- ferrimagnet --- perpendicular exchange bias --- amorphous thin films --- spintronic applications --- magnons --- synthetic antiferromagnets --- antiferromagnetic resonance --- micromagnetics --- spin pumping --- spin-orbit torque --- insulating antiferromagnet --- sub-terahertz waves --- spin-Hall effect --- garnet ferrite --- compensated ferrimagnet --- metal organic decomposition

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The articles published in this Special Issue reprint offer a sound update of research fields where the concepts of modular crystallography are important and provide unique keys to understand and to solve problems of structural crystallography. Polytypism, polysomatism, and twinning are fertile fields of research, and their basic principles—often coupled with the OD (order-disorder) theory—are powerful tools to solve and classify related crystal structures. Research on twinning and its consequences on structure and properties of crystalline materials is cutting-edge, e.g., dealing with relations between twin walls and piezoelectricity.

Research & information: general --- Earth sciences, geography, environment, planning --- tetrahedrite --- tennantite --- twinning --- order–disorder approach --- tetrahedral framework --- modular structures --- polysomes (series) --- synthetic analogues of minerals --- transition metal phosphates --- X-ray diffraction --- antiferromagnets --- frustrated magnets --- kagomé lattice --- chemical ordering --- superstructure --- spryite --- argyrodite-type compounds --- ultra-low temperature --- RE-silicate-germanate --- hydrothermal synthesis --- layered silicates --- modular approach --- wollastonite chain --- topology-symmetry analysis --- OD theory --- structure prediction --- luminescence properties --- twin wall --- twin boundary --- minerals --- emerging properties --- piezoelectricity in minerals --- surface relaxations --- anorthite --- Pamierite --- perovskite --- OD structures --- polytypism --- polymorphism --- heteropolyhedral framework --- modularity --- topology --- borophosphates --- aluminophosphates --- DFT --- electron diffraction --- c-type reflections --- ordering --- calcite --- glendonite --- TEM --- n/a --- order-disorder approach --- kagomé lattice

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The articles published in this Special Issue reprint offer a sound update of research fields where the concepts of modular crystallography are important and provide unique keys to understand and to solve problems of structural crystallography. Polytypism, polysomatism, and twinning are fertile fields of research, and their basic principles—often coupled with the OD (order-disorder) theory—are powerful tools to solve and classify related crystal structures. Research on twinning and its consequences on structure and properties of crystalline materials is cutting-edge, e.g., dealing with relations between twin walls and piezoelectricity.

Research & information: general --- Earth sciences, geography, environment, planning --- tetrahedrite --- tennantite --- twinning --- order-disorder approach --- tetrahedral framework --- modular structures --- polysomes (series) --- synthetic analogues of minerals --- transition metal phosphates --- X-ray diffraction --- antiferromagnets --- frustrated magnets --- kagomé lattice --- chemical ordering --- superstructure --- spryite --- argyrodite-type compounds --- ultra-low temperature --- RE-silicate-germanate --- hydrothermal synthesis --- layered silicates --- modular approach --- wollastonite chain --- topology-symmetry analysis --- OD theory --- structure prediction --- luminescence properties --- twin wall --- twin boundary --- minerals --- emerging properties --- piezoelectricity in minerals --- surface relaxations --- anorthite --- Pamierite --- perovskite --- OD structures --- polytypism --- polymorphism --- heteropolyhedral framework --- modularity --- topology --- borophosphates --- aluminophosphates --- DFT --- electron diffraction --- c-type reflections --- ordering --- calcite --- glendonite --- TEM --- tetrahedrite --- tennantite --- twinning --- order-disorder approach --- tetrahedral framework --- modular structures --- polysomes (series) --- synthetic analogues of minerals --- transition metal phosphates --- X-ray diffraction --- antiferromagnets --- frustrated magnets --- kagomé lattice --- chemical ordering --- superstructure --- spryite --- argyrodite-type compounds --- ultra-low temperature --- RE-silicate-germanate --- hydrothermal synthesis --- layered silicates --- modular approach --- wollastonite chain --- topology-symmetry analysis --- OD theory --- structure prediction --- luminescence properties --- twin wall --- twin boundary --- minerals --- emerging properties --- piezoelectricity in minerals --- surface relaxations --- anorthite --- Pamierite --- perovskite --- OD structures --- polytypism --- polymorphism --- heteropolyhedral framework --- modularity --- topology --- borophosphates --- aluminophosphates --- DFT --- electron diffraction --- c-type reflections --- ordering --- calcite --- glendonite --- TEM