Number | Course name | Total credits |
1 | Advanced Quantum Mechanics | 4 |
2 | Quantum statistical physics | 2 |
3 | Fundamentals of Material science | 4 |
4 | Semiconductor physics | 2 |
5 | Introduction to Nuclear Magnetic Resonance | 4 |
6 | Mathematical and Numerical Methods for Nuclear Magnetic Resonance | 2 |
7 | Recent Progress in Complex Networks | 2 |
8 | Advanced Solid State Physics | 2 |
9 | Quantum Optics | 2 |
10 | Optoelectronic Materials and Devices | 2 |
11 | Fabrication of Nanomaterials and Applications | 2 |
12 | Principle of Material Composite and New Material Technology | 2 |
13 | Applications of Magnetic Resonance | 2 |
14 | Nuclear Magnetic Resonance Spectroscopy: Principles and Experiments | 2 |
15 | Introduction to Magnetic Resonance Imaging : | 2 |
16 | Time Series Analysis | 2 |
17 | Nuclear Model | 2 |
18 | Optical quantum information processing | 2 |
19 | Nonlinear Optics and Quantum Information | 2 |
20 | Introduction to Atom Optics | 2 |
21 | Experimental Methods for Solid State Physics | 2 |
22 | Magnetoelectronics | 2 |
23 | Introduction to the Soft Condensed Matter Physics | 2 |
24 | Smart Sensor Technologies | 2 |
25 | New Energy Technology | 2 |
26 | Nano Photoelectric Materials and Environmental Purification Technology | 2 |
27 | Materials Chemistry | 2 |
28 | MR instrumentation: hardware and software | 2 |
29 | Experimental NMR and MRI | 2 |
30 | Scientific Methodology and Paper Writing | 2 |