subject index to volumes 47 & 48
TRANSCRIPT
618
SUBJECT INDEX TO VOLUMES 47&48
Actinides 12, 36, 45, 218, 231, 263, 297, 312, 545, 549, 552,
555, 558
Amorphous systems 115, 119
Anderson model 257, 269, 302, 335, 339, 350, 354, 364, 361,
312, 315, 384, 391, 504, 509
Band structure 248, 255, 260, 263, 459, 561
Bethe-ansatz 339, 367, 395
BIS 168, 197, 212, 218, 221
Bonding 206, 212, 228, 231, 238, 243, 397, 407
Brillouin scattering 312, 321
CeAg, 181
CeAl 2 75, 79, 83, 115, 163, 181, 315, 501, 521, 539
CeAI, 45, 60, 119, 297, 501, 521
CeAs 221, 243
CeAuzSi, 526
Ce$ 45, 63, 86, 145, 321, 493, 501, 539
CeBe,, 15, 79, 299, 312, 318, 529
CeBi 89, 243, 271, 532
Ce(Bi, Te) 89
CeCo, 181, 221
CeCo,Si, 181, 212
CeCu, 66, 545
CeCu 2 Si 2 1, 7, 23, 30, 33, 36, 39, 42, 79, 121, 136, 212, 299,
312, 493, 491, 501, 521, 524, 529, 539, 542, 545
CeF, 181
CeFe,Si, 212
CeIn, 69, 75, 181, 539
Ce(In, Sn), 149
CeIrz 75
CeIr,B, 558
(9, La)% 86 (Ce, La)Be,, 318
(Ce, La)Cu,Si, 7
(Ce, La)Rh, 93
Ce(Lu, Ni), 115
Ce metal 139, 175, 221, 257, 517, 592
CeMg, 133, 152 CeN 197, 260
Ce,Ni, 536
Ce(Ni, Co), 96
CeNi,Ge, 524, 539 CeNi,Si, 36, 212
CeNo, 209
CeO, 168, 181, 197, 243
Ce,Os 168
CeOs, 75
CeP 243
CePd, 72, 75, 79, 99, 115, 127, 139, 163, 181, 221, 493, 529,
539, 561
Ce(E, Ag) 529
CePd,B, 108, 111, 181, 561
CePd,Si* 526
CePO, 209
CePt, 15
(Ce, RE)Mg, 152
CeRh 2 75, 93, 181, 312
CeRh, 181
CeRh,B, 285, 561, 573
Ce(Rh, Pt), 93
CeRh,Siz 121, 526
CeRu 2 75, 163, 181, 221, 312, 542
CeRu,Siz 121, 281, 526
CeSb 221, 277, 532
CeSe 221
CeSi z 75, 197
CeSn, 51, 51, 75, 79, 121, 127, 142, 149, 297, 299 Ce(S0,) 2 209
CeTe 89, 277
(2, Th) 517
(Ce, Th)Cu,Si, 36
(Ce, Th)Ni ,Si z 36
(Ce, Th)Pd, 99
(Ce, Y)AI, 83
(Ce, Y)Co, 96
(Ce, Y)Ni, 96
(Ce, Y)Rh, 93
Coqblin-Schrieffer model 339, 354, 357, 367
Crystal fields 69, 79, 83, 89, 119, 127. 133, 145, 156, 159. 315, 318, 357, 472, 487, 493, 497, 501, 532, 595
Cumulant expansion 343
Dense Kondo systems 66, 69, 119, 145, 357, 532 d-f pairing 400
Elastic properties 45, 181, 238, 277, 312, 469
Electron-phonon interaction 1, 302, 305, 309. 315
Eu 295
EuCu *Gez 181
EuCu,Si, 175. 181, 299, 312
EuF, 181
EuNi,P, 410, 413, 561
Eu;O, 586
EuPd,A, 190, 561 Eu(Pd, Au),Si, 403, 417
EuPd z Pz 407
Eu(Pd, Rh),Si, 420
Subject index to volumes 47&48 619
Eu(Pd, Ru),Si, 420
EuPdzSi, 127, 175, 403, 561
EuPd,(Si, Ge) 420
EuRhsB, 561
EXAFS spectroscopy 190, 451
Phase transitions 257, 274, 289, 292, 295, 436, 443, 451, 487
Photoemission 163, 168, 221, 243, 255, 266, 271, 309, 558
Point contact spectroscopy 539
Polarons 309, 455
Pr 594, 599
Fluctuation temperature 75, 79, 108, 127, 156, 175, 299, 379, (Pr, RE)Fe, 102
(Pr, Sm)Fe, 102 420, 497, 595, 599
Functional integral 347
Hall effect 7, 89, 274, 429, 455, 493, 529, 532, 570
Heavy fermions 1, 7, 12, 17, 20, 36, 42, 45, 121, 545
High pressure 23, 175, 231, 277, 281, 285, 289, 295, 410
High temperature 75
Impurities 105, 181, 360, 364, 367, 447, 490, 513, 589, 592,
595, 599
Raman scattering 72, 315, 318
REAl, 163, 203, 315
REBe,, 318
REF, 203
REPd, 163, 200, 206, 561
Resistivity 7, 12, 23, 36, 45, 51, 89, 93, 96, 99, 111, 115, 274,
281, 289, 360, 429, 436, 455, 465, 472, 487, 497, 501, 504,
509, 513, 521, 529, 536, 549, 552, 558, 570, 573, 583, 595,
599 Intraionic multiplet levels 72, 75, 127, 181 RKKY interaction 7, 357, 360, 364, 447
Kerr effect 481
Kondo lattice 7, 17, 20, 23, 66, 281, 289, 297, 350, 357, 521
Kondo volume collaps 20, 75, 257, 360
SC 57
Scaling 305, 357
(SC, Ce) 181
L,,,-absorption 36, 115, 175, 200, 203, 206, 209, 212, 269, 403,
407, 417, 462, 485, 490, 570, 595, 599
LaBh 63
LaFs 209
LaFesSi, 212
LaNi, 200
LaNO, 209
LaPO, 209
LaSb 209
(La, Tm)Se 490
(SC, Ce)Al, 181
Single crystals 7, 23, 30, 33, 42, 51, 63, 66, 69, 72, 83, 86, 89,
90, 145, 149, 215, 277, 281, 289, 292, 423, 429, 465, 472,
478, 521, 524, 532, 539, 581
Sm 225
Sm/Ar 462
Sm$ 289, 423, 465, 469, 493
Sm,Bi, 292
SmFs 181
SmS 190, 274, 423, 455, 459, 465
Sm(S, As) 181, 451
SmsSe, 469 M-absorption 181, 215, 388
Magnetic order 285, 388, 417, 561, 573, 577, 581, 583
Magnetic properties 7, 33, 42, 51, 57, 60, 75, 79, 89, 96, 99,
105, 108, 111, 145, 149, 329, 335, 354, 367, 380, 391, 397,
413, 417, 420, 429, 436, 487, 552, 555, 558, 570, 592, 595,
599
Sm(S, P) 190, 465
(Sm, Y)S 181
Specific heat 12, 30, 39, 45, 51, 60, 63, 66, 83, 93, 96, 99, 111,
285, 336, 367, 384, 429, 472, 552, 558, 583, 599
Stoichiometry variation 33, 42, 478
Superconductivity 1, 7, 12, 17, 20, 23, 36, 69, 121, 285, 400 Magnetoacoustic quantum oscillation 297
Magneto-resistance 33, 455, 524
Magnetostriction 299
Mossbauer effect 156, 175, 403, 407, 410, 413, 417, 420, 561
TDPAD 589, 592
ThBe,s 263
NMR 108, 121, 136, 429, 555
NdMg, 152
Thermal conductivity 45, 63, 335, 521
Thermal expansion 30, 45, 83
Thermoelectric power 7, 23, 45, 335, 475, 497, 517, 521, 526, 536, 595, 599
Neutron scattering 127, 133, 136, 139, 142, 152, 159, 329
NiO 168
l/N-expansion 17, 257, 266, 309, 323, 329, 335, 339, 350, 354,
364
Optical conductivity 343, 423, 532, 586
Optical phonons 305, 318
(Tm, La)S 485
TmF, 181
TmIr, 581
TmS 475
TmSe 181, 248, 459, 475, 478, 481, 490 Tm(Se, Te) 436, 459, 481
(Tm, Y)Se 215
Tunneling spectroscopy 542 (Pd, Ce) 181 p-f mixing 228, 532 UBet3 12, 45, 263, 312, 555
620 Subject index to volumes 47&48
UCd, 12
(U, Dy)Cu, 555
Ulr,B2 559
upt, 12, 545
UP@ 218
USb 549
UTe 549
(U, Th)B% 12 &Zn,, 12
Valence determination 200, 203, 206, 209, 215, 335, 403, 410,
417, 462, 485, 487, 490
Variational approach 372, 375, 447
Volume effects (ambient pressure) 75, 93, 96, 102, 231, 248,
299, 407, 436, 451, 485, 570, 573
XPS 197, 212, 218, 221, 225, 266, 271, 429, 586
YbAl, 542
YbAl, 142
YbB,, 423, 429, 567
YbBe,, 159
Yb,Bi, 570
YbCuAl 105, 121, 299, 354, 529 YbCu ,Si 2 79,127, 299, 312, 497, 529 YbInAu, 299, 529, 542
Yblr, 581
YbPd 79
Yb,Pd, 583
(Yb, RE)$ 472
Yb,Sb, 570
(Yb, Tm)Se 487
(s, Y)CuAl 105
(1, Tm)Se 181, 490
(Y, U)B, 552
@, Pr)B,, 599 Yb 295