kw.\*:("Lattice specific heat")
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Calculation of the phonon contribution to the specific heat of an overlayer-film substrate at low temperaturesMASRI, P.Solid state communications. 1983, Vol 46, Num 7, pp 565-567, issn 0038-1098Article
Anomalous lattice heat capacity of orientationally glassy crystal of p-chloronitrobenzene at low temperaturesSAITO, Kazuya; KOBAYASHI, Hiroji; MIYAZAKI, Yuji et al.Solid state communications. 2001, Vol 118, Num 12, pp 611-614, issn 0038-1098Article
The lattice specific heat of Li and Na at high temperature and under pressureMATSUO KAGAYA, H; ARAI, K; SOMA, T et al.Physica. B, Condensed matter. 1992, Vol 179, Num 4, pp 309-311, issn 0921-4526Article
Modeling lattice heat-capacity contributions by a single-parametric phonon dispersion approachKOMADA, N; WESTRUM, E. F.Journal of chemical thermodynamics. 1997, Vol 29, Num 3, pp 311-336, issn 0021-9614Article
Peculiarities of phonon spectra and lattice heat capacity in Ir and RhKATSNELSON, M. I; NAUMOV, I. I; TREFILOV, A. V et al.Philosophical magazine. B. Physics of condensed matter. Statistical mechanics, electronic, optical and magnetic properties. 1997, Vol 75, Num 3, pp 389-406, issn 1364-2812Article
Heat capacity of carbon nanotubesBENEDICT, L. X; LOUIE, S. G; COHEN, M. L et al.Solid state communications. 1996, Vol 100, Num 3, pp 177-180, issn 0038-1098Article
Hybridization effects in U2(Re,Os)B6 and U(Ru,Os)B4RIEGER, J. J; MIELKE, A; SCHEIDT, E.-W et al.Journal of alloys and compounds. 1995, Vol 221, Num 1-2, pp 42-44, issn 0925-8388Article
LATTICE SPECIFIC HEAT OF CARBON NANOTUBESSPARAVIGNA, A.Journal of thermal analysis and calorimetry. 2008, Vol 93, Num 3, pp 983-986, issn 1388-6150, 4 p.Article
The physics of ion imapct cathode heatingMORGAN, W. L; PITCHFORD, L. C; BOISSEAU, S et al.Journal of applied physics. 1993, Vol 74, Num 11, pp 6534-6537, issn 0021-8979Article
Density of states and specific heat of elastic vibrations in layer structuresHOTZ, R; SIEMS, R.Superlattices and microstructures. 1987, Vol 3, Num 4, pp 445-454, issn 0749-6036Article
Analysis of the thermophysical properties of some rare-earth hydroxides through crystal field effectsDASGUPTA, S; SAHA, M; GHOSH, D et al.The Journal of physics and chemistry of solids. 1984, Vol 45, Num 6, pp 589-594, issn 0022-3697Article
A NEW HIERARCHY OF UPPER AND LOWER BOUNDS ON EXPECTATION VALUESBRANDT U; STOLZE J.1981; J. PHYS. B; ISSN 0340-224X; DEU; DA. 1981; VOL. 43; NO 1; PP. 61-67; BIBL. 13 REF.Article
Determination of the phonon density of states from specific heat dataKOK, W. C.Solid state communications. 1990, Vol 74, Num 8, pp 843-845, issn 0038-1098, 3 p.Article
Ab initio calculation of the pressure dependence of the lattice specific heat of aluminum = Calcul ab initio de la variation en fonction de la pression de la chaleur massique de réseau de l'aluminiumVAZQUEZ, G. J; MAGANA, L. F.Physics letters. A. 1987, Vol 122, Num 5, pp 267-270, issn 0375-9601Article
Contributions to the heat capacity of solid molybdenum in the range 300-2890 K = Contributions à la capacité calorifique du molybdène solide dans le domaine 300-2890 KCHOUDHURY, A; BROOKS, C. R.International journal of thermophysics. 1984, Vol 5, Num 4, pp 403-429, issn 0195-928XArticle
Frequency spectrum, specific heat and Debye temperature of α-iron = Spectre de fréquence, chaleur massique et température de Debye du fer αGUPTA, O. P.Acta physica Polonica. A. 1983, Vol 64, Num 3, pp 269-276, issn 0587-4246Article
Lattice heat capacity of Sr2RuO4KAR'KIN, A. E; GOSHCHITSKII, B. N; MITBERG, E. B et al.Physics of metals and metallography. 1998, Vol 85, Num 5, pp 527-529, issn 0031-918XArticle
The specific-heat coefficient and the coherence temperature for the Kondo lattice system = Le coefficient de chaleur massique et la température de cohérence pour le système de réseau de KondoKAGA, H; KUBO, H.Solid state communications. 1988, Vol 65, Num 4, pp 257-260, issn 0038-1098Article
Low-temperature specific heats of C24K(H2)x and C24K(D2)xKONDOW, T; MIZUTANI, U.Synthetic metals. 1983, Vol 6, Num 2-3, pp 141-147, issn 0379-6779Article
Magnetic and phonon contributions to the specific heat of PdNi alloys between 1.8 and 300 K = Contributions magnétiques et des phonons à la chaleur massique des alliages PdNi entre 1,8 et 300 KLORAM, J. W; MIRZA, K. A; CHEN, Z et al.Journal of physics. F. Metal physics. 1986, Vol 16, Num 2, pp 233-255, issn 0305-4608Article
The acoustic phonon spectrum of Penrose tilingsKLENIN, M.Zeitschrift für Physik. B, Condensed matter. 1986, Vol 65, Num 1, pp 1-6, issn 0722-3277Article
Low-frequency Einstein mode in the heavy-fermion compound UBe13 = Mode de Einstein aux basses fréquences dans le composé à fermions lourds UBe13RENKER, B; GOMPF, F; REICHARDT, W et al.Physical review. B, Condensed matter. 1985, Vol 32, Num 3, pp 1859-1861, issn 0163-1829Article
Low-temperature specific heat of USb and UTeRUDIGIER, H; FIERZ, C; OTT, H. R et al.Solid state communications. 1983, Vol 47, Num 10, pp 803-806, issn 0038-1098Article
Density functional theoretical study of lattice-specific heat and thermal properties of magnesium nitride : Applications of Thermal Analysis and Calorimetry (SATAC-2010)MANKAD, Venu; GUPTA, Sanjeev K; SONI, Himadri R et al.Journal of thermal analysis and calorimetry. 2012, Vol 107, Num 1, pp 45-48, issn 1388-6150, 4 p.Article
A calculation of the low-temperature lattice specific heat of very dilute Al-Li alloysMARINELLI, F; ROCHE, M.Journal of physics. Condensed matter (Print). 1992, Vol 4, Num 3, pp 747-751, issn 0953-8984Article