Quantum Physics |
AKIMOTO, Kazuhiro |
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【Information and Electronic Engineering・2nd semester】
18-1-0522-2004 |
| 1. |
Outline |
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This course starts with topics such as blackbody radiation which was not explained by the classical theory of radiation in the beginning of the 20th century.
Then, we will proceed to the introduction of quanta by Planck, a German physicist, including the photo-electric effect.
Other topics to be covered include Bohr's theory of atoms, the Compton effects, Shroedinger equation, Sommerfeld's theory of metals etc.
This course corresponds to the diploma policy 3.
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| 2. |
Objectives |
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In this class we will study Quantum Physics, which provides a very important basis for modern technology such as electronics and photonics.
Quantum Physics has been applied to the vast areas of physics among other fields.
The results of Quantum Physics have been effectively applied to lasers, light-related devices such as LEDs etc.
|
| 1. |
Outline |
|
This course starts with topics such as blackbody radiation which was not explained by the classical theory of radiation in the beginning of the 20th century.
Then, we will proceed to the introduction of quanta by Planck, a German physicist, including the photo-electric effect.
Other topics to be covered include Bohr's theory of atoms, the Compton effects, Shroedinger equation, Sommerfeld's theory of metals etc.
This course corresponds to the diploma policy 3.
|
| 2. |
Objectives |
|
In this class we will study Quantum Physics, which provides a very important basis for modern technology such as electronics and photonics.
Quantum Physics has been applied to the vast areas of physics among other fields.
The results of Quantum Physics have been effectively applied to lasers, light-related devices such as LEDs etc.
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| 3. |
Grading Policy |
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Textbook and Reference |
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Requirements (Assignments) |
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Note |
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Schedule |
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