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Item #:
87028080
The Physics of Nanoelectronics: Transport and Fluctuation Phenomena at Low Temperatures Oxford Master Series in Physics
Item #:
87028080
ETB 11778
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Advances in nanotechnology have allowed physicists and engineers to miniaturize electronic structures to the limit where finite-size related phenomena start to impact their properties.
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What Stands Out
In-depth Analysis
Provides comprehensive insights into nanoelectronics, focusing on transport and fluctuation phenomena, essential for researchers and engineers in low-temperature physics.
Expert Contributions
Authored by leading physicists, ensuring high-quality content that is both authoritative and up-to-date, making it a valuable resource for advanced studies and applications.
Advanced Applications
Covers cutting-edge technologies and practical applications of nanoelectronics, appealing to both academia and industry professionals looking to innovate in low-temperature environments.
Product Details
| Publisher | Oxford University Press |
| Publication date | April 5, 2013 |
| Language | English |
| Print length | 296 pages |
| ISBN-10 | 0199673497 |
| ISBN-13 | 978-0199673490 |
| Item Weight | 1.4 pounds (640 grams) |
| Dimensions | 0.6 x 7.4 x 9.5 inches (1.5 x 18.8 x 24.1 cm) |
| Part of series | Oxford Master Series in Physics |
Who Should Buy?
-
Graduate Students
Ideal for students pursuing advanced degrees in physics or electrical engineering focusing on nanoelectronics and low-temperature phenomena.
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Researchers
Beneficial for researchers working in fields of nanoelectronics, quantum transport, or low-temperature physics who require in-depth knowledge.
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Industry Professionals
Useful for engineers and professionals in semiconductor industries needing to understand transport phenomena at nanoscale levels.
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Casual Learners
Not suited for casual readers or those looking for an introductory book without complex mathematical formulations.
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Beginners in Physics
Unsuitable for beginners in physics as it covers advanced concepts requiring prior knowledge in condensed matter physics.
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General Audience
Not appropriate for a general audience seeking light reading; it demands significant background in physics and engineering.
Product Description
The Physics of Nanoelectronics: Transport and Fluctuation Phenomena at Low Temperatures Oxford Master Series in Physics
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Customer Questions & Answers
-
Question:
What topics are covered in The Physics of Nanoelectronics?
Answer: The book explores a variety of fundamental topics within nanoelectronics, particularly focusing on transport phenomena and fluctuation phenomena at low temperatures. It delves into quantum transport, electronic fluctuations, and the principles governing nanoscale devices. These concepts are crucial for understanding the behavior of electrons in materials that operate under low temperature conditions, which is essential for advancements in electronics and nanotechnology. -
Question:
Who is the author of The Physics of Nanoelectronics?
Answer: The author of The Physics of Nanoelectronics is Vladimir Mitin. He is renowned for his contributions to the field of semiconductor physics and nanoelectronics. Mitin's expertise ensures that the content is both reliable and insightful, making it a valuable resource for students, researchers, and professionals interested in the physics underlying modern electronic devices and nanostructures. -
Question:
Is this book suitable for beginners in nanoelectronics?
Answer: While The Physics of Nanoelectronics provides comprehensive insights into advanced topics, it is best suited for individuals with a basic understanding of semiconductor physics or quantum mechanics. The book assumes familiarity with fundamental concepts, so readers who have completed introductory courses in physics or materials science will benefit most from its content. It's an excellent resource for graduate students and professionals seeking to deepen their knowledge. -
Question:
What is the significance of low temperature in nanoelectronics?
Answer: Low temperature is significant in nanoelectronics as it reduces thermal noise and allows for clearer observation of quantum effects. At lower temperatures, the electrical properties of materials can exhibit dramatic changes, enabling the study of phenomena like quantum tunneling and superconductivity. Understanding these low-temperature effects is essential for developing efficient and powerful nanoelectronic devices. -
Question:
Can The Physics of Nanoelectronics be used as a textbook?
Answer: Yes, The Physics of Nanoelectronics can be effectively used as a textbook for advanced courses in physics and engineering. Its structured approach, combined with theoretical insights and practical examples, makes it an excellent teaching tool. Instructors can supplement their lectures with its comprehensive discussions on nanoelectronic principles, aiding students in grasping complex topics more readily. -
Question:
What are the primary applications of nanoelectronics?
Answer: Nanoelectronics primarily finds applications in creating smaller, more efficient electronic components such as transistors, sensors, and memory devices. These components are crucial for the development of advanced technologies, including quantum computing, high-performance computing, and medical devices. Understanding the principles outlined in The Physics of Nanoelectronics is key for researchers looking to innovate in these exciting fields. -
Question:
What makes The Physics of Nanoelectronics a standout resource?
Answer: The Physics of Nanoelectronics is a standout resource due to its in-depth coverage of niche topics and its blend of theoretical and practical perspectives. It offers comprehensive insights into contemporary issues in nanoelectronics and presents complex concepts clearly. Readers particularly appreciate the author’s ability to connect abstract theories to real-world applications, enhancing their understanding and engagement with the material. -
Question:
Can the concepts in this book be applied to current technology?
Answer: Absolutely! The concepts discussed in The Physics of Nanoelectronics are highly applicable to current technology trends, particularly in fields like semiconductor manufacturing, quantum computing, and nanoscale device fabrication. As researchers and engineers develop new technologies, the foundational concepts presented in this book equip them with the knowledge needed to innovate and improve device performance and reliability. -
Question:
What materials are essential for understanding nanoelectronics?
Answer: To grasp the principles of nanoelectronics effectively, a solid foundation in materials science, solid-state physics, and quantum mechanics is essential. These materials provide the requisite knowledge bases from which one can advance. The Physics of Nanoelectronics complements this knowledge by contextualizing theoretical principles within practical applications, thereby reinforcing the importance of these foundational subjects. -
Question:
Where can I buy The Physics of Nanoelectronics: Transport and Fluctuation Phenomena at Low Temperatures in Ethiopia?
Answer: You can purchase The Physics of Nanoelectronics: Transport and Fluctuation Phenomena at Low Temperatures through Ubuy in Ethiopia. Ubuy offers a wide selection of books and detailed product information, making it a convenient option for securing your copy of this insightful resource.
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ETB 11778
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Ubuy works hard to protect your security and privacy. Our advanced payment security system ensures confidentiality by encrypting your information during transmission using AES (Advanced Encryption Standards) and SSL (Secure Socket Layer) protocols. Your payment details are 100% secure as we do not share your payment details with third party sellers.
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Features & Benefits
- Nanotechnology advancements enable miniaturization of electronic structures
- Finite-size related phenomena start to affect properties
- Book discusses various phenomena and models related to nanoelectronics
- Focuses on nonequilibrium effects, scattering theory, interference effects, fluctuations, correlations, and interactions
- Introduces electronic devices like the single-electron transistor and superconducting quantum bit
- Describes new fields related to graphene and nanoelectromechanics