Enrolment options
Genap 2020/2021
Kelas-Offr:
O-O
Deskripsi:
Crystal structures :1. The crystalline state, 2. Basic definitions (the crystal lattice, basis vectors, the unit cell, primitive versus nonprimitive cells, three dimensions), 3. The fourteen bravais lattices and the seven crystal systems, 4. Crystal planes & miller indices 5. Simple cubic, 6. Face-centered Cubic, 7. Body-centered cubic, 8. Hexagonal close-packed structure, 9. Other simple crystal structures (NaCl, CeSl, etc). Types of bonding, X-Ray, Neutron, and Electron Diffraction in Crystals: 1. Types of bonding, 2. Generation and Absorption of X-rays 3. Bragg’s law, 4. Scattering from a crystal, 5. The reciprocal lattice, 6. The diffraction condition and Bragg’s Law. Lattice Vibrations: Thermal, Acoustic, and Optical Properties: 1. Elastic waves, 2. Density of state of a continuous medium, 3. Specifik heat: (model of Einstein and Debye), 4. The Phonon, 5. The 1D monoatomic lattice, 6. The 1D diatomic lattice, 7. Three-dimensional lattie 8. Density state of lattice, 9. Specific heat : Exact theory, 10. Thermal conductivity, 11. Scattering of X rays by phonon. The Free Electron Model: 1. The free-electron gas, 2. Electrical conductivity, 3, Thermal coductivity, 4. Heat capacity od Conducton Electrons, 4. The fermi energy, 5. Cyclotron resonance and The hall effect, 6. Optical properties, 7. Thermionic emission, 8.Failure of the free-electron model. Energy Bands in Solids: 1. Energy spectra, 2. The Bloch theorem, 3. Band symmetry in k-space, 4. Number of state in the band, 5. The nearly-free-electron model, 6. The energy gap, 7. Metal, insulator, and semiconductor, 8. Density of states, 9. Velocity of the Bloch electron, 10. Electron dynamics in an electric field, 11. The dynamic effective mass, 12. Electrical conductivity, 13. Electron dynamic in mangnetic field. Semiconductors: 1. Crystal structure and bonding, 2. Band structure, 3. Intrinsic semiconductors, 4. Impurities states 5. Semiconductor statistics, 6. Electrial conductivity, 7. Mobilty, 8. Magnetic field Effect, 9. Band structure of real semiconductors, 10. Optical properties: absorption processes, 11. Difussion. Dielectric and Optical Properties of Solids: 1. Review of Basic formulas, 2. The dielectric constant and polarizability, 3. Sources of polarizability, 4. Dipolar of polarizability, 5. Dipolar dispersion, 6. Dipolar polarization in solids, 7. Ionic polarizability, 8. Electronic polarizability, 9. Piezoelectricity, 10. Ferroelectricity. Magnetism and Magnetic Resonance: 1. Review of Basic formulas, 2. Magnetic susceptibility, 3. Classification of materials, 4. Langevin diamagetism, 5. Paramagnetism, 6. Magetism in metals, 7. Ferromagnetism in insulators, 8. Antireffomagnetism and ferrimagnetism, 9. Ferromagnetism in metals, 10. Ferromagnetic domains.
Capaian Pembelajaran
- NFIS6114.A01: Peserta menunjukkan penguasaan konsep Struktur Kristal, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
NFIS6114.A02: Peserta menunjukkan penguasaan konsep Dinamika Kisi Kristal, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
NFIS6114.A03: Peserta menunjukkan penguasaan konsep Model Elektron Bebas, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
NFIS6114.A04: Peserta menunjukkan penguasaan konsep Teori Pita Energi, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
NFIS6114.A05: Peserta menunjukkan penguasaan konsep Semikonduktor, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.NFIS6114.A06: Peserta menunjukkan penguasaan konsep Bahan Dielektrik, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
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NFIS6114.A07: Peserta menunjukkan penguasaan konsep Bahan Magnetik, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
M. A. Omar, 1975, Elementary Solid State Physics: Principles and Applications, Manila:
Addison-Wesley PublishingKittel, C. 1996. Introduction to Solid State Physics. New York: John Wiley & Son, Inc.
Chrisman, J. R., 1988, Fundamentals of Solid State Physics. New York: John Wiley & Son
- Teacher: Prof. Dr. Ahmad Taufiq, S.Pd., M.Si.