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Antoranz, J.C.
Ausloos, M.
Azouni, M.A.
Banai, N.
Benattar, J.J.
Berre, B.
Bilgram, J.H.
Bohr, T.
Brenig, L.
Bruce, A.D.
PARTICIPANTS
Dpto. de Fisica Fundamental - UNED Apartado Correos 50 487 Madrid-3, Spain
Inst. de Physique B5, Universite Liege, 4000 Liege Sart Tilman par Liege 1, Belgium
Lab. d'Aerothermique, 4 ter Route des Gardes, 92190 Meudon, France
Universite Libre de Bruxelles, Campus Plaine, Bd. du Triomphe, C.P. 231, Brussels, Belgium
Lab. Leon Brillouin, CEN Saclay, 91191 Gif-sur-Yvette - Cedex, France
Fysisk Institutt, P.O.B. 19, 1432 As-NLH, Norway
Lab. fur Festkorperphysik, ETH, Honggerberg, 8093 Zurich, Switzerland
Physics Lab. I, H.C. 0rsted Institute, Universitetsparken 5, 2100 Copenhagen, Denmark
Universite Libre de Bruxelles, Campus Plaine, Bd. du Triomphe, C.P. 231, Brussels, Belgium
University of Edinburgh, Dept. of Physics, Mayfield Road, Edinburgh EH9 EJZ, U.K.
469
470
Brey, J.
Buttiker, M.
Buttner, H.
Chalker, J.T.
Croquette, V.
Cummins, H.Z.
Degiorgio, V.
Durig, U.
Feder, J.G.
Fjrer, E.
Fossum, J.O.
Giglio, M.
Goldenfeld, N.D.
Gorman, M.
PARTICIPANTS
Dept. of Physics, University of Sev.illa, Sevilla, Spain
IBM T.J. Watson Research Center, P.O.B. 218, Yorktown Heights, N.Y. 10598, USA
Phys. Institut, Universitat Bayreuth, Postfach 3008, 8580 Bayreuth, W-Germany
Dept. of Theoretical Physics, 1 Keble Road, Oxford, OXI 3NP, U.K.
C.E.A. - DPh-G/PSRM - Orme des Merisiers, B.P.No. 2, 91190 GifSur-Yvette, France
The City College of New York, Dept. of Physics, 138 Street and Convent Ave., New York, N.Y. 10031, USA
1st. di Fisica Applicata, Universita di Pavia, Via Bassi 6, 27100 Pavia, Italy
Lab. fur Festkorperphysik, ETH Honggerberg, 8093 Zurich, Switzerland
Dept. pf Physics, University of Oslo, B1indern, Oslo 3, Norway
Inst. for almen fysikk, 7034 Trondheim-NTH, Norway
lnst. for almen fysikk, 7034 Trondheim-NTH, Norway
ClSE Laboratories, P.O. Box 12081, Milan, Italy
Theory of Condensed Matter, Cavendisch Laboratory, Madingley Road, Cambridge CB3 OHE, U.K.
University of Houston, Dept. of Physics, Huston, TX 77004,USA
PARTICIPANTS
Gray, LE.
Guazzelli, E.
Hackenbracht, D.
Hauge, E.H.-
Heldstab, J.
Hess, W.
Holden, T.M.
Hock, K.H.
Jensen, M.H.
Jrpssang, T.
Kogan, H.S.
Kosterlitz, J.M.
Kragler, R.
471
Bldg. 223, Argonne National Laboratory, ~rgonne,lll. 60439, USA
L.H.M.P. ESPCI, 10 rue Vauquelin, 75231 Paris, Cedex, France
Inst. fur Theoretische Physik, Universitat Frankfurt, RobertMayer Strasse 8, 6000 Frankfurt (Main), W-Germany
Institutt for teoretisk fysikk, 7034 Trondheim-NTH, Norway
lnst. fur Theoretische Physik, Universitat Basel, Klingelbergerstrasse 82, 4056 Basel, Switzerland
Fakultat fur Physik, Universitat Konstanz, Postfach 5560, 7750 Konstanz, W-Germany
Neutron and Solid State Physics Branch, Atomic Energy of Canada Ltd., Chalk River, Ontario, Canada
Ruhr Universitat Bochum, Theoret. Physik III, Universitatsstr. 150, 4630 Bochum, W-Germany
Physics Laboratory I, University of Copenhagen, Universitetsparken 5, 2100 Copenhagen, Denmark
Institute of Physics, University of Oslo, Blindern, Oslo 3, Norway
Dept. of Physics, University of Edinburgh, Mayfield Road, Edinburgh EH9 EJZ, U.K.
Dept. of Mathematical Physics, University of Birmingham, Birmingham B15 2TT, U.K.
Fakultat fur Physik, Universitat Kanstanz, Postfach 5560, 7750 Konstanz, W-Germany
472
Kristensen, J.K.
Kristensen, W.D.
Landman, U.
Landauer, R.W.
Langer, J.S.
Leimar, O.
Lekkerkerker, H.
Lemmens, L.F.
Libchaber, A.
Lyons, K.B.
Marques, M.
Martin, P.C.
Meissner, G.
PARTICIPANTS
The Danish Welding Institute, Pa~k AIle 345, 2600 Glostrup, Denmark
The Danish Welding Institute, Park aIle 345, 2600 Glostrup, Denmark
School of Physics, Georgia Institute of Technology, Atlandta, Ga. 30332, USA
IBM, T.J. Watson Reserach Center, P.O.B. 218, Yorktown Heights, N.Y. 10598, USA
Dept. of Physics, Carnegie-Mellon University, Schenley Park, Pittsburgh, Penn. 15213, USA
Dept. of Theoretical Physics, Royal lnst. of Technology, S-IOO 44 Stockholm 70, Sweden
Vrije Universiteit Brussel, Fakulteit Wetenschappen, Pleinlaan 2, 1050 Brussels, Belgium
R.U.C.A., Groenenborgerlaan 171, 2020 Antwerpen, Belgium
Groupe de Physique Solides de l'Ecole Normale Superieure, 24 rue Lhomond, 75231 Paris, Cedex OS, France
Rm lAl19, Bell Laboratories, 600 Mountain Ave., Murray Hill, N.J. 07974, USA
Dept. of Physics, Solid State Group, Imperial College, Prince Consort Rd., London SW7, England
Division of Applied Sciences, Harvard University, 217 Pierce Hall, Cambridge, Mass. 02138, USA
Universitat des Saarlandes, Theoret. Physik, 66 Saarbrucken, W-Germany
PARTICIPANTS
Michel, K.
Mul1er, LA.
M¢l1er, H.B.
Ono, 1.
Otnes, K.
Palm, E.
Pelce, P.
Pfister, G.
Pynn, R.
Ravndal, F.
Riste, T.
Santos, M.
Satija, S .K.
Sinha, S.K.
473
Dept. Natuurkunde, Universiteit Antwerpen, Universiteitsplein 1, 2610 Wilrijk, Belgium
IBM Research Laboratory, Saumerstrasse 4, 8803 Ruschlikon, Switzerland
Fors¢gsanlreg Ris~, 4000 Roskilde, Denmark
Dept. of Physics, Tokyo Institute of Technology, Oh-okayama, Meguroku, Tokyo 152, Japan
Institute for Energy Technology, P.O.B. 40, 2007 Kjeller, Norway
Inst. of Mathematics, University of Oslo, Blindern, Oslo 3, Norway
Fac. des Sciences, Lab. Dynamique et Thermophysique des Fluides, St. Jerome, 13397 Marseille, Cedex 13, France
Inst. of Applied Physics, University of Kiel, Olshausenstr. 40-60, Physikzentrum Haus N 6la, 2300 Kiel, W-Germany
Institut Laue-Langevin, P.O.B. 156 Centre de Tri, 38042 Grenoble-Cedex, France
Dept. of Physics, University of Oslo, Blindern, Oslo 3, Norway
Institute for Energy Technology, P.O.B. 40, 2007 Kjeller, Norway
Lab. de Fisica, Faculdade de Ciencias, 4000 Porto, Portugal
Physics Department, SlOB, Brookhaven National Laboratory, Upton, L.I., N.Y. 11973, USA
Div. Solid State Sciences, Bldg. 233, Argonne Natioanl Laboratory, Argonne, IL 60439, USA
474
Skjeltorp, A.
Starobinets, S.
Steiner, M.
Steinsvoll, O.
Stinchcombe, R.B.
Stokka, S.
Thomas, H.
Toledano, P.
Valkering, T.
Vaschishta, P.
Velarde, M.G.
Wesfreid, J.E.
Wunderlin, A.
ORGANIZING COMMITTEE
Andersen, E. Jarrett, G. }
PARTICIPANTS
Institute for Energy Technology, P.9.B. 40, 2007 Kjeller, Norway
Chemical Physics Dept., Weizmann Institute of Science, Rehovot, Israel 76100
Hahn-Meitner-Institut, Glienickp.r Str. 100, 1000 Berlin 39, WGermany
Institute for Energy Technology, P.O.B. 40, 2007 Kjeller, Norway
Theoretical Physics Departement, 1 Keble Road, Oxford OXI 3NP, UK
Depratment of Physics, 7034 Trondheim-NTH, Norway
Dept. of Physics, University of Basel, 4056 Basel, Switzerland
Groupe de Physique Teorique, Faculte des Sciences, 33 rue St. Leu 80000 Amiens, France
Twente University of Technology, Dept. of Physics, P.O.B. 217, 7500 AE Enschede, The Netherlands
Argonne National Laboratory, Argonne, Ill. 60439, USA
Dpto. de Fisica Fundamental-UNED Apartado Correos 50 487 Madrid 3, Spain
Ecole Superieure de Physique et de Chimie, 10 rue Vauquelin, 75231 Paris, Cedex 05, France
Inst. fur Theoreti£~he Physik, Universitat Stuttgart, Pfaffenwaldring 57, 7000 Stuttgart 80, W-Germany
Institute for Energy Technology, P.O.B. 40, 2007 Kjeller,. Norway
INDEX
Accumulation point, 237,241,278, 280,282
Adiabatic susceptibility, 42,43 Adsorbate, 40, 409,410,434 Advection, 266 Amplitude ratio, 42,43 Amplitude modulation, 290 Anharmonicity, 8,10,23,26,37,65,
81 Antikink, 12,113-138 Antiso1iton, 108 Aspect ratio, 151,163,164,173,
260,270,296 Attracting torus, 299 Autocorrelation function, 257,
356,375
Ballast resistor. 117,337,339 Bifurcation, 173,196,207,209,258,
259,270,280,287,290,292 Binary mixture, 187,212,249 Binary solution, 320 Birefringence, 26 Bistable spring, 114-116 Bistable system, 181,197 Block coordinate,51,52,58,60,62 Bolometer, 259,261,263 Bond-orientationa1 order,439,460 Bose-Einstein distribution, 194,
198,199 Breather, 98 Brillouin peak (fluctuations), 62
spectrum, 10,75 Burger's vector, 402,403,405,
413,420 Busse balloon, 265
475
Capillary length, 311,321,334 Calorimetry, 46 Cellular structure, 309 Central mode (peak), 5,6,8,9,10,
12,l5,20,27,28,44,50,63, 64,77,78,97,101
Chaos, 195,197,206,208,209,310 routes to, 209,277,287-293 spatial, 85,178
Characteristic function, 53,55,57 Chemical diffusivity, 318,321 Cholesteric, 463 Cluster, 12,13,14,17,24,30,50,54,
62,63,417 wall, 55,61,62,63
collision-dominated regime, 5 Collision-less regime, 5 colloidal crystal, 430 Computer simulation, ~ Molecu-
lar dynamics Consolution point, t87 contraction ratio 228 Control parameter 175,181,259,
274,310,332,333 Convection cell, see Roll Correlation function, 41,90,209
bond-orientation, 439 length, 45,54,56,62,132,201,
409,440,460,467,468 orientational, 413 positional, 455 time, 39,194
Couette flow, 295, 304 Coulomb system, 427 Critical behaviour, 26,39,62 Critical dimensionality, 14,20,
23
476
Critical dynamics, 12,16,28 Critical fluctuations, 6,44,46,
185 Critical isochore, 189 Critical narrowing, 39,49,63 Critical region, 71 Critical scattering, 66 Critical slowing-down, 201 Crossover, 69,71
displacive, order-disorder 20, 64
temperature, 30 Crossrollinstability, 157,161,264 Crystal growth, 128,304,343-367,
371-378 Crystallization, 388,409
Defects, 7,12,397,447 Dendrite, 309,310,323,344 Dendritic growth, 312,317,361-367 Dielectric function, 22 Dielectric ratio, 22 Diffusive mode, 360 Diffusive scattering, 374 Dipolar solid, 425 Directional solidification, 309,
318,327,334 Director, 174,251-253,256 Disclination, 401,413,425 Discrete maps, 210 Dislocation, 347,397-424,468
dynamics, 178 interaction, 406 melting, 398 pair, 403 unbinding, 413,419,468
Displacive phase transition, 1-34,35-68
Dissipation, 185 Domain wall, 111,114,391 Driven system, 182 Dynamic correlations, 69,72,93,
94 Dynamic scaling, 29
Eckhaus instability, 158,162,270 Edge dislocation, 178 Einstein-Stoke relation Electrical conductor, 116 Electron lattice, 425
Elliptical shear, 173 Epitaxy, 379
INDEX
EPR, 7,8,15,18,20,25,27,63,64 Eutectic, 309,325-336 Eutectic temperature, 326 Expansion
thermal, 146,159,211,250 solutal,251
Feigenbaum cascade, 236,238,242 Feigenbaum number, 291 Ferromagnet, 97 Ferromagnetic transition, 187 Finite-amplitude instability, 249 Fixed point, 14,59,62,63,235
Gaussian, 14 Heisenberg, 30 Ising, 39
Floating solid, 401 Flow exponent, 42 Fluctuation, 62,73,111,112,181-
203,255,330-332,351,352, 371,383
critical, 6,185 entropy, 76 ferroelectric, 112 hydrodynamic, 200 local, 15 mass density, 413 order-parameter, 44 orientational, 255 periodic, 371 phase, 194 phonon density, 6 rotational, 23 Sine-Gordon chain, 128 thermal, 18,315,340
Fluctuation-dissipation, 38,201 Fluctuation-driven transition,
23,30 Fluctuation scattering, 45 Fluctuation time, 15,16 Focker-Planck equation, 191,195 Fractal dimension, 228, 231, 241 Frank constant, 421, 422 Fredholm's alternative, 223-225 Freezing, 364 Friction coefficient, 184
constant, 122 Fugacity, 405, 408
INDEX
Galerkin method, 161,163 Gibbs-Thomson equation, 357,376 Ginzburg criterion, 188 Ginzburg temperature, 73 Ginzburg-Landau equation, 303 Goldstone excitation,mode 69,71
region, 71 singularity, 73
Grain dislocation, 178 boundary, 413
Halperin-Varma center, 15 Hard mode, 25 Heat capacity, 459 Heat conductivity, 252 Heat diffusion, 15, 250, 261 Henon map, 238-241 Hexagonal cell, 158-161 Hexatic phase, 413,415,418,419,
425,439,440,451,455,460, 468
Homeotropic nematic, 251,256 Hopf bifurcation, 207,220,226
Incommensurate systems, 30,75-79, 84,401,411,450-460
Impurity, 7,12,317 Infrared absorption (technique),
21,22 Instability,
convective, 145-1.72,195,200, 205-247,249,259
cross-roll, 157,161,259 dendritic, 353 Eckhaus, 158,162,270 eletrothermal, 337 jet, 303,306,307 knot, 264 laser, 190 Mullins-sekerka, 314,329,353 nonfaceted-faceted, 343,347 oscillatory, 162,249,259-266,
270-273,329 phase transition analogy, 212-
skewed varicose, 259-271 Soret, 196 square, 176 transient, 196 zig-zag, 158,161,259,264,270
Interaction, dipolar, 20 interchain, 97 intrachain, 97 long-range, 20 quadrupolar, 23 short-range, 20
Interface, 309-336,381,392 cellular, 323,325 corrugated, 376 crystal-vapour, 127,347
liquid-solid, 310,344,351,354, 358,359,371
liquid-vapour, 391 planar, 323 solid-melt, 349 surface bulk, 381
Intermittency, 236,242,243,244, 277 ,284
Inverted bifurcation, 209,258 Inverse scattering method, 107 Ising model (system), 26,43,44,
45,49,52,-55,391 Isothermal susceptibility, 42,43
Jet instability, 303,306,307
Kinematic viscosity, 146,159,201, 211,296
Kinetic temperature, 384 Kink, 12,64,85,111-138
antikink pair, 123-138 density, 123,128,129,133 diffusion, 129,131,132,134
Knot instability, 264,270 Kosterlitz-Thouless transition,
393,433,440 Kramer doublet, 17
220 Lame coefficient, 399, 435 Rayleigh-Benard, ~ Convective Lamellar growth, 329 sharp-diffuse interface, 343, Landau-Pla~?ek constant (ratio),
350 43,351 sidebranching, 313
478
Landau-Placzek constant 43,351
Landau-Hopf bifurcation 209,274
(ratio) ,
(model) ,
Landau theory, 186,187 Langevin equation, 191,195 Laser,
field, 191 gain, 191 instability, 190
Mu1tistab1e system, 111 Myrberg map, 236,238,241
Navier-Stokes equations, 211 Nematic, 173,249,255-257,420
INDEX
Nematic instability, 173 Neutron scattering, 10,21,46,64,
97-103,255-257,443-461 NMR, 23-24 Noise, 112,133,141,181,209,260,
279 potential, 193
Lennard-Jones potential Nucleation, 125,126,132,346,429
(system), Nusse1t number, 164,165,210,212 380,456
Lewis number, 214 Lifshitz point, 23 Light scattering, 10,25,75,187,
202,352,371,416 Limit cycle, 167,205-247,258,268,
299 Linear convection, 148 Lineshape, 442-455 Lipid, 40 Liquid crystal, 397,401,416-422,
433-439,455 Local coordinate, 51,52 Lock-in state, 276 Logarithmic correction (diverg
enGP), 20,43 Lorentz model, 195,209-247,284 Lyapunov exponent, 229,232,233,
234,241
Magnetic critical point, 337 Mandelbrot's snowflakes, 228 Marginal instability, 309,310 Markov process, 183,184 Mass diffusion, 189,250 Melting, 176,364,397-424,425-431
entropy, 346 two-dimensional, 397-424,425-
431,433-462,466-468 two-stage, 415
Metastable state, 181 Micellar solution, 187 Molecular dynamics, 11,60,137,
379,414,415,425-431,456 Momentum field, 70 Mul1ins-Sekerka instability, 314
Oberbeck-Boussinesq approximation, 146,263
Off-critical mode, 201 Offspring number, 228 Open system, 116,140 Optical mode, 22,87 Order parameter, 3,7,15,37,40,70,
71,186,215,304,400,436 algebraic (power-law) decay,
413,419,438,439,447-455 orientational, 383,412,413,420 positional, 37,398,409,418,436,
467 rotational, 18 susceptibility, 37,38,42
Orientational correlations, 413 order, 418
Orientational melting, 468 Oscillator,
chain of, 120 phase coupled, 118 synchronized, 118
Oscillatory instability, 162,249, 259,260,264,268,270,271, 329
Oscillatory scattering, 374 Osmotic compressibility, 189, OV€>rstabU i ty, 220,249
Parametric amplification, 277 Pattern formation, 309,318 Pec1et number, 313 Period doubling, 196,209,236,237,
241,277,280,287-293 Periodic flow, 295
INDEX
Periodic fluctuations, 371-378 Periodic substrate, 410,411 Periodon, 85-90 Periodon coupling, 88 Perovskite, 4,23,69,81 Phonon density fluctuation, 6 Phonon echo, 29 Phase fluctuations, 194 Phase transition,
antiferrodistortive, 6,10,22 displacive, 1-34,35-68,69-73 ferroelectric, 6 Kosterlitz-Thouless,393,433,440 magnetic, 97-103,187 order-disorder, 1-34,35-68,387 structural, 1-95
Phason, 75-79 Poincare map, 210,240,242,243,
245 Poisson distribution, 194,198 Polymer, 13 7 Polymorphism, 463 Potts mode] I 433,458,460 Power spectrum, 257,260,296 Prandtl number, 148, 145-172,
201,205-247,259-261 Precursor order, 23
Quasiperiodic flow, 206
Raman, 9,17,21,25,73,75,78,81 Random process, 182 Rayleigh-Benard instability, 145-
172,195,200,207,210,212-215,238,249,259,287,303
Rayleigh number, 148,145-172,201, 205-247,260-286,296,304
critical, 150,271 supercritical, 154,157,161,163
Registered phase, 434,445 Relaxation, 112 Renormalization group, 35,36,39,
47,458 Reptation, 137 Roll, 145-172,178,255,259-277
hexagonal, 158-161 instability, 176 twodimensional, 155,156,161,
166 Roughening transition, 347,349,
350,392
Saturable absorber, 212 Scaling r 39,188 Screw dislocation, Seebeck coefficient, 337,338 Selfconsistent phonon approxi-
mation, 89
479
Self-organization, 181 Shear-director coupling, 251,252 Shear viscosity, 189 Shock, 115 Short-range order, 17,18,35,39,
46,61 Side-branching instability, 313 Sine-Gordon equation (model,
system), 98,100,105-108,111-142
Skewed varicose, 259,265,270,271 Smectic, 415,416,418-422,456,
463-468 Soft mode, 312,12,13,18,19,21,
22,26,63 Solidification, 379 Solid-liquid transition, 344 Solid-on-solid model, 392,393 Soliton, 12,85,91-94,97-103,
105-108,111-141 Soret number, 215
phenomenon, 196,212,251,252 Space-time symmetry, 295 Spatial coherence, 49 Specific heat, 46 Spectral function, 38 Spinodal decomposition, 198,200 Spinodal line, 220 Spin wave, 98-103 Square instability, 176 Stability length, 326 Stimu1.ated oscillation, 305 Stokes-Einstein relation, 353 Strange attractor, 170,205,228,
234,235,241 Stream function, 211 Subcritica1 bifurcation, 227 Structural phase transition, see
Phase transition Subharmonic bifurcation 241 Sublimation temperature, 348 Substrate, 409-411,440,441 Supercooling, see Undercooling
480
Supercritical bifurcation, 227, 278,364
Superfluid, 404 Superf1uorescence, 198,200 Superheating, 428 Superlattice scattering, 39,44,
47 Surface molecular dynamics, 379 Surface tension, 160 Susceptibility, 187
longitudinal, 69,72 order-parameter, 69 transverse, 69
Synchrotron radiation, 449
Taylor-Couette flow, 207 Taylor-vortex flow, 296,303,305 Temporal coherence, 49 Thermal conductivity, 261 Thermal diffusion mode, 44 Thermal diffuse scattering, 435 Thermal expansion, 146,159,211,
250 Thermometric conductivity, 211 Tilt fluctuation, 417 Toda lattice, 81,90 Topological defect, 397 Tricritical point, 215,216,218 Triple point, 215,216,218,326,
442 Turbulence, 164,178,205,208,210,
237,259,270,277 routes to, 277-285,287-293
Turbulent burst, 244 Twodimensional correlations, 23 Two-magnon process, 97,103 Tyndall flower, 365
Ultrasound, 7,2,8,29,30 Undercooling, 310,312,317,327,
344,347,357,361,383,388, 428,430
constitutional, 320 Univera1ity, 35,36,39,40,45,46,
51,52,136,458
Viscosity, 146,158,159,189,201, 211,250
Viscous dissipation, 251,265 Vorticity, 166,273
Vortex, 406,408,418
Wavy mode, 303,305 Wavy vortex flow, 297
INDEX
X-ray, 18,21,78,416,442-461,463-469
Zig-zag instability, 158,161, 259,264,270
zone-refining, 354
4 Q.l -model, 83,84
<p4-so1iton, 113
BaMnF4, 75-79 BaTi03, 13,20,21,22,25,26 C2C16' 348 CD4' 444,447,452,453 CH4, 460 Cr, 337 CsNiF3, 97-103,105 Cu, 346 D20, 359 Gd, 337 Graphite (graphoil), 434, 444-
460 H2, 444 H20, 287,295,353,359,360 H20-C12E6, 189 He, 259,401,415,426,459 He3-He4 , 404,458 Ice, 311,345,346,353,365,366,
377 KH2P04' 9,13 KMnF3, 4,6,7,13,23,25-30 KNb03, 13,20,21,22 Kr, 440-444,457 KTal-xNbx03, 25,82 KTa03, 9,20 LaAI03' 4, l3 ,74 N2, 444 NaNb03, 6,7,27 NH4C1, 348 Ni, 337,340 O-terphenyl, 350 Para-azoxyanisole, 256 Pb5Ge3011, 9,20
INDEX
RbCaF3' 13,23,25,26,3C Salol, 346,350,359,360,371-378 SbSI, 82 Silicone oil, 303 SrTi03' 1-28,64,65,74 Succinonitrile,,311,317,363,364 Thymol, 350 TMMC, 105 Xe, 444 Zn-Bi-In, 349 65 OBC, 455
481