逎∵ァ譚先侭縺翫h縺ウ譛画ゥ滄崕蟄先攝譁吶ョ蝓コ遉弱rシ檎黄雉ェ縺ョ逎∵ァ縺ィ隱倬崕シ悟ー朱崕諤ァ縺ォ髢「縺吶k逅隲悶°繧牙ュヲ縺カ縲ら」∝喧シ悟讌オ縺ィ蟆朱崕諤ァ縺ェ縺ゥ迚ゥ雉ェ縺ョ諤ァ雉ェ縺ィ讖溯ス縺後←縺ョ繧医≧縺ォ縺励※逋コ迴セ縺吶k縺九r蟄ヲ縺ウシ碁未騾」縺ョ髮サ蟄先攝譁吶↓縺、縺縺ヲ縺ョ逅隗」繧呈キア繧√k縲
1. 逎∵ァ譚先侭縺ョ蝓コ遉守黄諤ァシ育」∵ー励Δ繝シ繝。繝ウ繝茨シ悟推遞ョ逎∵ァシ悟ョ溽畑逎∵ー礼音諤ァシ
2. 譛画ゥ滄崕蟄先攝譁吶ョ蝓コ遉守黄諤ァ縺ィ髮サ蟄舌サ蜈画ゥ溯スシ郁ェ倬崕諤ァ繝サ蟆朱崕諤ァシ碁崕蟄先ゥ溯スシ悟蛾崕蟄先ゥ溯スシ悟蛾撼邱壼ス「諤ァシ
Fundamentals and advanced theories of magnetic properties and dielectric properties for the better understanding of ferro- and ferri- magnetic materials and dielectric and ferroelectric materials. Origins of magnetic moment, its alignment and anisotropy, electronic and optical properties in advanced organic materials.
Fundamental theories of dielectric and magnetic properties are lectured for the better understanding of the materials which are used in the field of electronics and electrical engineering. After studying how the polarization, dielectric properties, and conductivity appear in the materials of organic and inorganic materials, extended theory for the application of the properties to the future electronic devices are lectured.
Fundamentals of electronic properties of organic materials
(Dielectric theory, conductivity, electronic functions, photo-electronic properties, non-linear optics, etc.)
Mitsumasa Iwamoto: 窶截asics of Electronic matters窶 (in Japanese), Asakura Shoten.
Mitsumasa Iwamoto: 窶戲lecrical and Electronics Materilas窶 (in Japanese), Ohmsha.
C.Kittel: 窶扞ntroduction to Solid State Physics,窶 John Wiley シ Sons, Inc.
Knowledge of fundamentals on quantum physics.
Evaluation will be based on the term end examination and the exercises carried out during the classes.
Exercise will be held as the need arises.
縲唇ffice hours縲
Anytime you can visit our office with permission by e-mail at iwamotoツシpe.titech.ac.jp for Prof. M.Iwamoto.