教學時程
Calendar Legends
(P): Lecture taught by Prof. Ronald Prinn
(M): Lecture taught by Dr. Robert McClatchey
| 課 | 課程單元 | 重要日期 |
|---|---|---|
| 1 | Introduction (P) Thermodynamic Concepts of Radiation and Energy Levels in Molecules |
|
| 2 | Equation of Radiative Transfer (M) Derivation - Special Cases |
|
| 3 | Equation of Radiative Transfer (cont.) (M) Fluxes and Simple Solutions - Radiative Equilibrium Approximation (Exercise 1) |
|
| 4 | Modeling Atmospheric Transmission and Emission (P) Absorption and Emission by Gases - Rotational Spectra - Vibration - Rotation Spectra - Line Shape |
|
| 5 | Modeling Atmospheric Transmission and Emission (cont.) (M) The HITRAN Data Base and Applications (Exercise 2) |
Exercise 1 due |
| 6 | Modeling Atmospheric Transmission and Emission (cont.) (M) Band Models (Weak Line, Strong Line, Random, Regular, k Distribution) |
|
| 7 | Modeling Atmospheric Transmission and Emission (cont.) (M) MODTRAN - R.M. (Exercise 3) |
Exercise 2 due |
| 8 | Scattering of Radiation by Molecules and Particles (M) Single Scattering Size Distributions Mie Scattering (Exercise 4) |
|
| 9 | Multiple Scattering (M) Discrete Ordinates (Exercise 5) |
Exercise 3 due |
| 10 | Remote Sensing (M) Scattered Sunlight (Observations from Ground, from Satellite) Retrieval of Gases, Particulate Information, Surface Properties |
Exercise 4 due |
| 11 | Remote Sensing (cont.) (M) Thermal Emission Weighting Functions Temperature and Water Vapor Retrieval Limb Scanning |
|
| 12 | Remote Sensing (cont.) (M) Application of MODTRAN to Remote Sensing (Exercise 6) |
Exercise 5 due |
| 13 | Remote Sensing (cont.) (M) Misc. Topics and Summary (Microwave Remote Sensing, Active Remote Sensing - LIDAR and RADAR) |
Exercise 6 due 7 days after Lec #13 |
