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American Journal of Physics, 1996
The correlation between potential shape and specific heat is generally absent from textbook discussions. We present a detailed analysis of the specific heat contribution due to independent particles subject to one-dimensional classical and quantum model potentials.
C. A. Pizarro +3 more
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The correlation between potential shape and specific heat is generally absent from textbook discussions. We present a detailed analysis of the specific heat contribution due to independent particles subject to one-dimensional classical and quantum model potentials.
C. A. Pizarro +3 more
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Physica A: Statistical Mechanics and its Applications, 1998
Abstract It is shown that the constant-specific-heat approximation, widely used in usual thermodynamics, is also applicable in multifractal thermodynamics. The concrete values of the multifractal specific heat are calculated from the data of numerical simulations and laboratory experiments performed by different authors for the Anderson metal ...
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Abstract It is shown that the constant-specific-heat approximation, widely used in usual thermodynamics, is also applicable in multifractal thermodynamics. The concrete values of the multifractal specific heat are calculated from the data of numerical simulations and laboratory experiments performed by different authors for the Anderson metal ...
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Physical Review B, 1979
The energy-energy correlation function $C(k)$ is calculated to $O(4\ensuremath{-}d)$ in an exponentiated crossover form for $n$-component spin systems. The result is exact for the Gaussian ($n=2$) and spherical ($n=\ensuremath{\infty}$) models which form symmetrically placed anchors for the calculation for general $n$.
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The energy-energy correlation function $C(k)$ is calculated to $O(4\ensuremath{-}d)$ in an exponentiated crossover form for $n$-component spin systems. The result is exact for the Gaussian ($n=2$) and spherical ($n=\ensuremath{\infty}$) models which form symmetrically placed anchors for the calculation for general $n$.
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1966
Metals are characterized by their high electrical and thermal conductivities at ordinary temperatures. When the discrete nature of electric charges became clear, by about 1900, it was also realized that freely moving electrons were the charge carriers in metals.
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Metals are characterized by their high electrical and thermal conductivities at ordinary temperatures. When the discrete nature of electric charges became clear, by about 1900, it was also realized that freely moving electrons were the charge carriers in metals.
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1966
The idea that the specific heats of some materials show abnormal variations at certain temperatures was introduced as early as Chapter 1, and several examples of such uncommon behavior were mentioned in Chapters 3 to 6. Before embarking upon a systematic classification of such unusual specific-heat variations, it is worthwhile to digress a little upon ...
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The idea that the specific heats of some materials show abnormal variations at certain temperatures was introduced as early as Chapter 1, and several examples of such uncommon behavior were mentioned in Chapters 3 to 6. Before embarking upon a systematic classification of such unusual specific-heat variations, it is worthwhile to digress a little upon ...
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