| Kode Mata Kuliah | FI4221 / 3 SKS |
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| Penyelenggara | 102 - Fisika / FMIPA |
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| Kategori | Kuliah |
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| Bahasa Indonesia | English |
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| Nama Mata Kuliah | Optika Kuantum dan Teknologinya | Quantum Optics and Its Technologies |
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| Bahan Kajian | - Interaksi Antara Atom dan Medan Elektromagnetik Klasik dengan Pendekatan Semiklasik
- Hamiltonian Interaksi dalam Coulomb Gauge dan Göppert-Mayer Gauge
- Prinsip Kuantisasi Kanonik dan Ekspansi Medan Elektromagnetik dalam Moda Normal
- Kuantisasi Radiasi, Foton, dan Fluktuasi Vakum
- Radiasi Kuantum Moda Tunggal dan Moda Jamak
- Interaksi Antara Atom dan Foton dengan Pendekatan Kuantum
- Emisi Spontan dan Hamburan Foton oleh Atom
- Optik Non-Linear: Medan Elektromagnetik pada Medium Non-Linear
- Qubit, Teleportasi Kuantum, dan Keterkaitan Kuantum
| - Interaction Between Atoms and Classical Electromagnetic Fields with a Semiclassical Approach
- Interaction Hamiltonian in Coulomb Gauge and Göppert-Mayer Gauge
- Principles of Canonical Quantization and Expansion of Electromagnetic Fields in Normal Mode
- Quantitation of Radiation, Photons, and Vacuum Fluctuations
- Single Mode and Multiple Mode Quantum Radiation
- Interaction Between Atoms and Photons with a Quantum Approach
- Spontaneous Emission and Scattering of Photons by Atoms
- Non-Linear Optics: Electromagnetic Fields in Non-Linear Mediums
- Qubits, Quantum Teleportation, and Quantum Entanglement
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| Capaian Pembelajaran Mata Kuliah (CPMK) | - Memahami dan dapat menjelaskan interaksi antara atom dan medan elektromagnetik menggunakan pendekatan semiklasik
- Memahami dan dapat menjelaskan interaksi antara atom dan medan elektromagnetik menggunakan pendekatan kuantum
- Memahami dan dapat menjelaskan fenomena emisi spontan yang hanya dapat dijelaskan dengan baik oleh pendekatan kuantum
- Memahami dan dapat menjelaskan aspek kuantum dari foton dan aplikasinya dalam teknologi kuantum
- Menganalisa interaksi antara atom dan medan elektromagnetik dengan mengaplikasikan prinsip-prinsip mekanika klasik dan kuantum.
- Menganalisa sistem qubit dengan mengaplikasikan metode informasi dan komputasi kuantum.
| - Understand and be able to explain interactions between atoms and electromagnetic fields using a semiclassical approach
- Understand and be able to explain interactions between atoms and electromagnetic fields using a quantum approach
- Understand and be able to explain spontaneous emission phenomena that can only be explained well by quantum approaches
- Understand and be able to explain the quantum aspects of photons and their applications in quantum technology
- Analyze interactions between atoms and electromagnetic fields by applying the principles of classical and quantum mechanics
- Analyzing qubit systems by applying information methods and quantum computing.
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| Metode Pembelajaran | Ceramah, Pembelajaran Berbasis Masalah | Lecture, Problem Based Learning |
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| Modalitas Pembelajaran | Luring Sinkron, Bauran/Daring Asinkron | Synchronous Offline, Asynchronous Mixed/Online |
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| Jenis Nilai | ABCDE |
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| Metode Penilaian | Tugas, Ujian Tengah Semester, Ujian Akhir Semester | Assignments, Midterm Exams, Final Semester Exams |
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| Catatan Tambahan | MKPB | |
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