Landolt-Brnstein Group III
: Condensed Matter
Volume 27 

Magnetic Properties of Non-Metallic Inorganic Compounds Based on Transition Elements 
Subvolume F1a Perovskites I (Part a) 
5
Magnetic properties of oxides with perovskite, corundum, ilmenite and amorphous 1 
5.1

Perovskite-type oxides based on 3d elements (E. BURZO) 1 
5.1.1

Introduction for Chap. 5.1 - 5.3 1 
5.1.1.1

General remarks 1 
5.1.1.2

List of frequently used symbols and abbreviations 2 
5.1.2

Scandium-based perovskites 6

5.1.3

Titanium-based perovskites 9 
5.1.3.1

Crystal structure. Lattice parameters 9 
5.1.3.2

Magnetization and magnetic susceptibilities 20 
5.1.3.3

Electron paramagnetic resonance (EPR) data 27 
5.1.3.4

Nuclear gamma resonance (NGR) data 30 
5.1.3.5

Perturbed angular correlations (PAC) 33 
5.1.3.6

Electrical resistivities 33 
5.1.3.7

Heat capacity 42 
5.1.3.8

Dielectric properties 44 
5.1.3.9

Electron spectroscopy data 46 
5.1.3.10

Infrared spectra 48 
5.1.3.11

Optical spectra 49 
5.1.3.12

References for 5.1.3 53 
5.1.4

Vanadium-based perovskites 62 
5.1.4.1

Crystal structure. Lattice parameters 62 
5.1.4.2

Magnetization and magnetic susceptibilities 71 
5.1.4.3

V nuclear magnetic resonance (NMR) data 84 
5.1.4.4

Electron paramagnetic resonance (EPR) data 86 
5.1.4.5

Electrical resistivities 87 
5.1.4.6

Heat capacity 94 
5.1.4.7

Infrared spectra 94 
5.1.4.8

Electron spectroscopy data 95 
5.1.4.9

Optical spectra 98 
5.1.4.10

References for 5.1.4 99 
5.1.5

Chromium-based perovskites 102 
5.1.5.1

Crystal structure. Lattice parameters 102 
5.1.5.2

Magnetization and magnetic susceptibilities 109 
5.1.5.3

Neutron diffraction data 112 
5.1.5.4

Electrical resistivities 113 
5.1.5.5

Dielectric properties 118 
5.1.5.6

Thermal properties 118 
References for 5.1.2 8

51



5.1.5.7 
Infrared spectra 119

5.1.5.8 
Electron spectroscopy data 119

5.1.5.9 
References for 5.1.5 120

5.1.6 
Manganese-based perovskites 123

5.1.6.1 
Introduction 123

5.1.6.2 
Crystal structure. Lattice parameters. Preparation methods 123

5.1.6.3 
Magnetization and magnetic susceptibilities 147

5.1.6.4 
Neutron diffraction data 166

5.1.6.5 
Nuclear magnetic resonance (NMR) data 169

5.1.6.6 
Nuclear gamma resonance (NGR) data 170

5.1.6.7 
Positron annihilation 171

5.1.6.8 
Heat capacity 171

5.1.6.9 
Electrical resistivities 173

5.1.6.10 
Mechanical properties 186

5.1.6.11 
Infrared data 186

5.1.6.12 
Magneto-optical properties 188

5.1.6.13 
X-ray photoelectron spectroscopy 189

5.1.6.14 
References for 5.1.6 194

5.1.7 
Iron-based perovskites 200

5.1.7.1 
Crystal structure. Lattice parameters 200

5.1.7.2 
Magnetization and magnetic susceptibilities 220

5.1.7.3 
Neutron diffraction data 227

5.1.7.4 
Nuclear gamma resonance (NGR) data 229

5.1.7.5 
Electron paramagnetic resonance (EPR) data 249

5.1.7.6 
Electrical resistivities 251

5.1.7.7 
Magnetoelectric effect 260

5.1.7.8 
Dielectric properties 262

5.1.7.9 
X-ray photoemission (XPS) and ultraviolet photoemission (UPS) spectroscopy data 264

5.1.7.10 
References for 5.1.7 267

5.1.8 
Cobalt-based perovskites 274

5.1.8.1 
Crystal structure. Lattice parameters. Preparation 274

5.1.8.2 
Magnetic properties 288

5.1.8.3 
Neutron diffraction data 298

5.1.8.4 
Nuclear gamma resonance (NGR) data 299

5.1.8.5 
Ferromagnetic resonance data 304

5.1.8.6 
Electrical resistivities 305

5.1.8.7 
Electron spectroscopy data 311

5.1.8.8 
References for 5.1.8 312

5.1.9 
Nickel-based perovskites 316

5.1.9.1 
Crystal structure. Lattice parameters 316

5.1.9.2 
Magnetization and magnetic susceptibilities 326

5.1.9.3 
Neutron diffraction data 332

5.1.9.4 
Electron paramagnetic resonance (EPR) data 338

5.1.9.5 
Electrical resistivities 338

5.1.9.6 
Heat capacity 342

5.1.9.7 
Optical studies 342

5.1.9.8 
X-ray absorption spectroscopy 342

5.1.9.9 
References for 5.1.9 343




Introductory material 
structures 
