Scanning Nonlinear Dielectric Microscopy: Investigation of Ferroelectric, Dielectric, and Semiconductor Materials and Devices

Автор: alex66 от 17-10-2020, 21:46, Коментариев: 0

Категория: КНИГИ » ТЕХНИЧЕСКИЕ НАУКИ


Название: Scanning Nonlinear Dielectric Microscopy: Investigation of Ferroelectric, Dielectric, and Semiconductor Materials and Devices
Автор: Yasuo Cho
Издательство: Woodhead Publishing
Год: 2020
Формат: PDF
Страниц: 252
Размер: 20.95 МБ
Язык: English

Scanning Nonlinear Dielectric Microscopy: Investigation of Ferroelectric, Dielectric, and Semiconductor Materials and Devices is the definitive reference on an important tool to characterize ferroelectric, dielectric and semiconductor materials. Written by the inventor, the book reviews the methods for applying the technique to key materials applications, including the measurement of ferroelectric materials at the atomic scale and the visualization and measurement of semiconductor materials and devices at a high level of sensitivity. Finally, the book reviews new insights this technique has given to material and device physics in ferroelectric and semiconductor materials.
The book is appropriate for those involved in the development of ferroelectric, dielectric and semiconductor materials devices in academia and industry.
Key Features

Presents an in-depth look at the SNDM materials characterization technique by its inventor
Reviews key materials applications, such as measurement of ferroelectric materials at the nanoscale and measurement of semiconductor materials and devices
Analyzes key insights on semiconductor materials and device physics derived from the SNDM technique

Readership

Materials Scientists and Engineers, Electrical Engineers, Physicists, Researchers in both academia and R.




ОТСУТСТВУЕТ ССЫЛКА/ НЕ РАБОЧАЯ ССЫЛКА ЕСТЬ РЕШЕНИЕ, ПИШИМ СЮДА!


Нашел ошибку? Есть жалоба? Жми!
Пожаловаться администрации
Уважаемый посетитель, Вы зашли на сайт как незарегистрированный пользователь.
Мы рекомендуем Вам зарегистрироваться либо войти на сайт под своим именем.
Информация
Посетители, находящиеся в группе Гости, не могут оставлять комментарии к данной публикации.