By R. Troć (auth.), H.P.J. Wijn (eds.)
The Landolt-Börnstein quantity 27 bargains with the magnetic houses of non-metallic inorganic compounds in line with transition parts, corresponding to there are pnictides, chalcogenides, oxides, halides, borates, silicates and phosphates. A survey of the contents of all subvolumes that experience already seemed or were deliberate to seem is outlined at the within front conceal. with a view to hide the massive quantity of magnetic and magnetically comparable houses of the lanthanide and actinide pnictides and chalcogenides that seemed in literature lately, the subvolume 27B needed to be cut up into subvolumes B1...B8. Subvolumes 27B1, 27B2, 27B3, 27B4 and 27B5 (published among 1998 and 2003) take care of lanthanide pnictides and chalcogenides. Pnictides are outlined as compounds containing no less than one of many components P, As, Sb or Bi (V-th team of the Periodic System), and chalcogenides are outlined as compounds containing one of many components S, Se or Te (VI-th team of the periodic system). the 3 subvolumes 27B6, 27B7 and 27B8 conceal the houses of actinide pnictides and chalcogenides. Subvolume 27B8 (published in 2004) offers with ternary actinide pnictides and chalcogenides, whereas in subvolume 27B7 (published in 2005) information on binary non-equiatomic actinide pnictides and chalcogenides are given.
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Additional resources for Actinide Monochalcogenides: Pnictides and Chalcogenides III
B 33 (1986) 7144. : J. Magn. Magn. Mat. 58 (1986) 1. : J. Less-Comm. Metals, 128 (1987) 7. : J. Magn. Magn. Mat. 63-64 (1987) 649. : J. Magn. Magn. Mat. 63-64 (1987) 175. : Phys. Rev. B 35 (1987) 2667. : Solid State Comm. 64 (1987) 193. : Physica B 146 (1987) 341. : Cryst. Res. Technol. 22 (1987) 1047. : J. Less-Comm. Met. 133 (1987) 31. : Hyperfine Interact. 40 (1988) 377. : High Temp. High Press. 20 (1988) 553. : J. Less-Comm. Met. 153 (1989) 133. , Staun Olsen, G. , in: High Pressure Res. Vol.
78Ca Reduced heat capacity, C/T, vs. 78Cb Ne´el temperature, TN, electronic specific heat coefficient, γ(0), and Debye temperature, ΘD Table References 01WFR 07JSWC table Optical reflectivity (NNIR), R, vs. 1007/978-3-540-47043-4_3 ß Springer 2009 87B2 table Landolt‐Bo¨rnstein New Series III/27B6β Survey: General Properties of Actinide Monochalcogenides (AnY) Compound Sample State Electronic, crystal structure, magnetic and related properties Figure PuY Calculated and experimental equation of state: Relative volume, V/V0, vs.
28a vs. 28b 84BSGS, 83MS, 52DSM 07VKKS1 UY Calculated elastic constants, Cij, CL, CS, vs. pressure, p, up to 100 GPa (US) and 50 GPa (USe, UTe) ThY Bulk modulus, log B0, vs. 30 vs. principal quantum number n 88SGBL, 95B UY Reduced volume, V/V0, vs. 31a Calculated difference of Gibbs free energy, ΔE, vs. 31c vs. pressure, p, up to 100 GPa table Calculated transition pressure, pt, and volume collapse, ΔV/V0 Experimental and calculated bulk modulus, B0, vs. 32 Phonon frequency, ν, vs. 34 constants, Ai, vs.
Actinide Monochalcogenides: Pnictides and Chalcogenides III by R. Troć (auth.), H.P.J. Wijn (eds.)