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Crystal lattice of graphite and synthetic carbons
Mechanical properties of graphite and carbon materials
The energy spectrum of electrons and holes in graphite
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acceptor GIC acceptor-type anisotropy baric coefficients basal plane Brandt Brillouin zone c-axis calculated carbon atoms carbon materials carriers centres components corresponding crystal crystallites curves cyclotron masses decrease density described determined diamagnetism donor Dresselhaus effect elastic electron energy electron spectrum electrons and holes energy spectrum experimental data extremal cross section FeCl3 Fermi energy Fermi level Fermi surface field H force constants frequency function galvanomagnetic graphite intercalation compounds graphite lattice graphite layers heat capacity HOPG impurities in-plane increase interaction intercalate layer irradiation kbar Landau levels magnetic field magnetic susceptibility magnetoresistance magnitude measurements modes neighbouring neutron observed obtained optical oscillations parameters peak phonon phonon spectrum Phys pressure properties pure graphite pyrocarbons pyrolytic graphite quantum Raman reactor resonance scattering semimetals shown in fig solid Solin specimens spectra spectrum of GIC spectrum of graphite stage index structure superconductivity SWMC-model Tanuma temperature dependence thermal transitions trigonal warping values vibrations wave vector