Theory of the Specific Heat of Graphite.
スポンサーリンク
概要
- 論文の詳細を見る
The graphite crystal is considered as a system of thin elastic plates spaced at_ a constant distance. An elastic force is assumed to act between each neighboring plates in such a way that a local change of the spacing between them produces at that point a tension or a pressure normal to the plates whose magnitude is proportional to that change. The vibrations of this system are assumed to be separable into independent parts: the bending vibrations in which the displacements occur normal to the planes of the plates, and the extensional and shearing vibrations in which the displacements occur parallel to them. The frequency distributions of their normal modes are studied. The values of the elastic constants of the plates that determine the latter vibrations are derived from the force constants of benzene molecule, while the value of the beuding modulus of the plate is determined by fitting the calculated specific heat curve with the observed one. The constants of the elastic force acting between neighboring plates ate derived from the measured elastic constants of graphite (mainly the compressibility). Small contributions of the electronic specific heat and the C_p-C_v correction are added to obtain the total specific heat. The result is in good agreement with experiment.
- 社団法人日本物理学会の論文
- 1951-12-25
著者
-
Nagamiya Takeo
Department Of Physics Faculty Of Science Osaka University
-
KOMATSU Kozo
Department of Physics, Naniwa University
-
Nagamiya Takeo
Department Of Physcis Osaka University
-
Komatsu Kozo
Department Of Physics Naniwa University
関連論文
- Magnetic Anisotropy Measurements of CoO Single Crystal
- Magnetic Anisotropy Measurement of MnO Single Crystal
- Magnetic Anisotropy Measurements of NiO Single Crystal
- Theory of Color Centers. IV. Energy Levels of Various Complex Centers
- Theory of Color Centers, II On the Nature of V_3 Center in Alkali Halides
- Theory of the Specific Heat of Graphite.
- Effect of Self-diffusion on the Ortho-para Conversion in Oxiygen Contaminated Solid Hydrogen
- Origin of the Magnetic Anisotropy Energy of Antiferromagnetic Cr_2O_3
- Theory of Color Centers. III. Continuum Models of F^+_ and F_2-Centers
- Note on the Effect of Oxygen Molecules Contained in Solid Hydrogen on the Rate of Ortho-para Conversion
- Theory of Color Centers I On Mollwo's Relation and the Temperature Variation in F Absorption Band
- Diffuse Scattering of X-rays by a Point-Imperfection in Diamond Lattice
- Diffuse Streak Patterns from Various Crystals in X-Ray and Electron Diffraccion
- Magnetization Process of a Screw Spin System. II
- On the Magnetic Anisotropy of FeF_2 and CoF_2
- The Phase Transition and the Piezoelectric Effect of KH_2PO_4.
- Theory of the Ortho-Para Conversion in Solid Hydrogen
- On the Theory of the Dielectric Piezoelectric, and Elastic Properties of NH_4H_2PO_4
- A Tentative Interpretation of Bickford's Observation of the Resonance Absorption in Magnetite below its Transition Point
- Interpretation of Diffuse Streak Diffiraction Patterns from Single Crystals
- On the Zero Point Entropy of Methane Crystal
- Theory of Antiferromagnetism and Antiferromagnetic Resonance Absorption, II
- Theory of the Specific Heat of Graphite II