Tahun Akademik:
Genap 2021/2022
Kelas-Offr:
AM-AM
Deskripsi:
Latar Belakang Lahirnya Fisika Kuantum: 1. Radiasi Benda Hitam, 2. Percobaan Efek fotolistrik, 3. Efek Compton, 4. Difraksi electron, 5. Spektrum Garis, 6. Model Atom Bohr. The Wave Function: 1. The Schrodinger Equation, 2 Statistical Interpretation, 3. Probability, 4. Normalization, 5. Momentum, 6. The Uncertainty Principle. The Time-Independent Schrodinger Equation: 1. Stationary State, 2. The Infinite Square Well, 3. The Harmonic Oscillator, 4. The Free Particle, 5. The Delta-Function Potential, 6. The Finite Square Well Potential, 7. The Scattering Matrix. Quantum Mechanics in Three Dimensions: 1. Schrodinger Equations in Spherical Coordinates, 2.The Hydrogen Atom, 3. Angular Momentum, 4. Spin. Time-Independent Pertubation Theory: 1. Nondegenerate Pertubation Theory, 2. Degenerate Pertubation Theory, 3. The Fine Structure of Hydrogen, 4. The Zeeman Effect. The WKB Approximation: 1. The “Clasical” Region, 2. Tunneling, 3. Connection Formulas. Time-Dependent Pertubation Theory: 1. Two-Level Systems, 2. Emission and Absorption of Radiation. Pengenalan Mekanika Kuantum Relativistik: 1. Persamaan Klein Gordon dan Persamaan kontinyuitas, 2. Persamaan Dirac, 3. Persamaan Dirac dan elektron, 4. Kuantisasi Kedua.
Capaian Pembelajaran
Genap 2021/2022
Kelas-Offr:
AM-AM
Deskripsi:
Latar Belakang Lahirnya Fisika Kuantum: 1. Radiasi Benda Hitam, 2. Percobaan Efek fotolistrik, 3. Efek Compton, 4. Difraksi electron, 5. Spektrum Garis, 6. Model Atom Bohr. The Wave Function: 1. The Schrodinger Equation, 2 Statistical Interpretation, 3. Probability, 4. Normalization, 5. Momentum, 6. The Uncertainty Principle. The Time-Independent Schrodinger Equation: 1. Stationary State, 2. The Infinite Square Well, 3. The Harmonic Oscillator, 4. The Free Particle, 5. The Delta-Function Potential, 6. The Finite Square Well Potential, 7. The Scattering Matrix. Quantum Mechanics in Three Dimensions: 1. Schrodinger Equations in Spherical Coordinates, 2.The Hydrogen Atom, 3. Angular Momentum, 4. Spin. Time-Independent Pertubation Theory: 1. Nondegenerate Pertubation Theory, 2. Degenerate Pertubation Theory, 3. The Fine Structure of Hydrogen, 4. The Zeeman Effect. The WKB Approximation: 1. The “Clasical” Region, 2. Tunneling, 3. Connection Formulas. Time-Dependent Pertubation Theory: 1. Two-Level Systems, 2. Emission and Absorption of Radiation. Pengenalan Mekanika Kuantum Relativistik: 1. Persamaan Klein Gordon dan Persamaan kontinyuitas, 2. Persamaan Dirac, 3. Persamaan Dirac dan elektron, 4. Kuantisasi Kedua.
Capaian Pembelajaran
- Peserta menunjukkan penguasaan interpretasi eksperimen modern yang mengharuskan implementasi teori kuantum.
- Peserta menunjukkan penguasaan konsep fungsi gelombang dalam fisika kuantum.
- Peserta menunjukkan penguasaan terhadap persamaan Schrodinger, kemampuan menemukan dan menganalisis solusi bagi sistem 1D, potensial konstan dan Osilator harmonis, dan kemampuan mendapatkan interpretasi fisis dari hasil analisis solusi sistem tersebut.
- Peserta menunjukkan penguasaan materi fisika kuantum 3D, dan kemampuan mengambil keputusan secara tepat untuk memberikan interpretasi fisis atas sistem 3D tersebut.
- Peserta menunjukkan penguasaan materi pengenalan teori pendekatan dan teori gangguan, serta implementasinya.
- Peserta menunjukkan penguasaan mekanika kuantum relativistik dan menguasai interpretasi fisis atas sistem kauntum relativistik tersebut.
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- C. Phillips, 2003, Introduction to Quantum Mechanics, New York: John Wiley & Sons Ltd
- Kenneth S. Krane, 2012, Modern physics-3rd ed, New York: John Wiley & Sons
- Walter Greiner, 2001, Quantum mechanics, An Introduction 4ed., New York: Springer
- Walter Greiner, 2000, Relativistic Quantum mechanics, New York: Springer
- Y. K. Lim, 1998, Problems and Solutions in Quantum Mechanics, Singapore: World Scientific publishing Co. pte. Ltd.
- Sutopo, 2005, Pengantar Fisika Kuantum
- P. L Taylor and O Heinonen, 2002, A Quantum Approach to Condensed Matter Physics, Cambridge, University Press
- Pengajar: Eny Latifah Dr. , S.Si, M.Si