LB-SEARCH LB-CONTENTS GROUP III
: Condensed MatterVOLUME 27 
Magnetic Properties of Non-Metallic Inorganic Compounds Based on Transition Elements SUBVOLUME F2s Perovskite-type layered cuprates (high-Tc superconductors and related compounds) 
Title Page, Contributors, Preface 
5	
Magnetic properties of oxides with perovskite, corundum and ilmenite type 1

structures and amorphous oxides

5.1.1
 - 5.1.9See Vol. 27F1a 
5.1.10
 - 5.3See Vol. 27F1b 
5.4

Perovskite-type layered cuprates (high-Tc superconductors and related 1 
5.4.1

Introduction 1 
5.4.1.1

General remarks 1 
5.4.1.2

List of frequently used symbols and abbreviations 3 
5.4.2

Magnetic susceptibilities and concentration phase diagrams 10 
5.4.2.1

Rare earth cuprates Ln2CuO4 10 
5.4.2.1.1

Pure La2CuO4d, La2NiO4d, Y2CuO4, Bi2CuO4 and model compounds CuO, 10 
5.4.2.1.2

Doped La2-xM'xCu1-yM''yO4-d16 
5.4.2.1.3

Pure and doped Ln2-xMxCuO4-d, Ln2NiO4-d25 
5.4.2.2

Rare earth cuprates LnBa2Cu3O7-d, LnBa2Cu4O8-d, Ln2Ba4Cu7O15-d37 
5.4.2.2.1

Pure YBa2Cu3O7-d and YBa2Cu4O8-d37 
5.4.2.2.2

Doped YBa2Cu3-yMyO7-d and YBa2Cu4-yMyO8-d40 
5.4.2.2.3

Pure and substituted LnM2Cu3O7-d, LnM2Cu4O8-d, Ln2M4Cu7O15-d, 44 
5.4.2.3

Bi-, Hg-, Pb-, Tl- based layered cuprates and spin ladder systems 61 
5.4.2.4

Related compounds Ln2Cu2O5, Ln2BaMO5 69 
5.4.3

Magnetization and magnetic phase transitions 76 
5.4.3.1

Pure and doped La2CuO4, model compounds CuO, Ca2CuO2Cl2, Sr2CuO2Cl2, 76 
5.4.3.2

Pure and doped Ln2CuO4 81 
5.4.3.3

Pure and doped LnBa2Cu3Ox 91 
5.4.3.4

Related compounds Ln2Cu2O5 100 
5.4.3.5

Layered cuprates of quaternary family (M-2122) 104 Electric polarization and magnetoelectric effect 110
5.4.3A


5.4.4

Magnetic neutron scattering and diffraction 114 
5.4.4.1

Magnetic structures and spin correlations 114 
5.4.4.1.1

Pure La2CuO4d, La2NiO4d, Bi2CuO4 and model compounds M2CuO2Cl2 114 
5.4.4.1.2

Doped La2-xM'xCu1-yM''yO4-d122 
5.4.4.1.3

Pure and doped Ln2-xMxCuO4-d, Ln2NiO4-d130 
5.4.4.1.4

Pure and doped YBa2(Cu1-xMx)3O7-d, YBa2(Cu1-xMx)4O8-d139 


compounds) (Z.A. KAZEI, I.B. KRYNETSKII) BaCuO2+x LnM2Cu2NbO8-d(Sr,A)14Cu24O41, Sr2CuO3, (La,Sr)CuO2.5 Ba2Cu3O4Cl2, Bi2CuO4 
LnM2Cu2NbO8-d 
5.4.4.1.6  Bi-, Tl- and Hg- based layered cuprates and spin ladder systems  165  
5.4.4.1.7  Related compounds Ln2Cu2O5, Ln2BaMO5  166  
5.4.4.2  Inelastic neutron scattering and crystal field parameters  171  
5.4.4.2.1  Pure and doped Ln2Cu1-xMxO4-d 171  
5.4.4.2.2  LnBa2Cu3O7-d, LnBa2Cu4O8-d 181  
5.4.4.2.3  Related compounds Ln2Cu2O5  200  
5.4.5  Magnetic resonance experiments  201  
5.4.5.1  Nuclear resonance measurements  201  
5.4.5.1.1  Pure and doped Ln2CuO4  201  
5.4.5.1.2  LnBa2Cu3Ox and LnBa3Cu4O8  211  
5.4.5.1.3  Hg- and Bi- based cuprates  227  
5.4.5.2  Electron paramagnetic and antiferromagnetic resonance measurements  230  
5.4.5.2.1  Pure and doped Ln2CuO4, model compounds Sr2CuO2F2.4, Ba2Cu3O4Cl2, and  230  
Bi2CuO4  
5.4.5.2.2  Pure and doped LnBa2Cu3O6  236  
5.4.5.2.3  Tl- and Bi- based cuprates  243  
5.4.5.3  +SR measurements  245  
5.4.5.3.1  Pure and doped La2-xM'xCu1-yM"yO4  245  
5.4.5.3.2  Pure and doped LnBa2Cu3Ox, La2SrCu2O6+d 249  
5.4.6  Mssbauer spectroscopy  251  
5.4.6.1  Pure and doped Ln2CuO4, model compounds (Sr,Ca)2CuO2Cl2, Sr2CuO3 and  251  
CuO  
5.4.6.2  Pure and doped LnBa2Cu3Ox  259  
5.4.6.3  Compounds related to LnBa2Cu3Ox  272  
5.4.6.4  Bi- and Pb- based cuprates  279  
5.4.7  Heat capacity and derived thermodynamic properties  284  
5.4.7.1  Pure and substituted La2-xM'xCu1-yM''yO4d 284  
5.4.7.2  Pure and substituted Ln2-xMxCuO4-d 286  
5.4.7.3  Pure and substituted LnM'2Cu3-yM''yO7-d, LnM'2Cu4O8-d, Ln2M'4Cu7O15-d,  291  
LnM'2Cu2NbO8-d 
5.4.7.4  Bi-, Hg-, Pb-, Tl- based layered cuprates  307  
5.4.7.5  Related compounds Ln2Cu2O5, Ln2BaMO5  310  
5.4.8  Elastic and magnetoelastic properties  312  
5.4.8.1  Elastic moduli and sound velocity  312  
5.4.8.2  Thermal expansion  316  
5.4.8.3  Magnetostriction  317  
5.4.9  References for 5.4  320  

