The Physics of Information Technology 1st edition by Neil Gershenfeld – Ebook PDF Instant Download/Delivery: 0521580447, 9780521580441
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ISBN 10: 0521580447
ISBN 13: 9780521580441
Author: Neil Gershenfeld
The Physics of Information Technology explores the familiar devices that we use to collect, transform, transmit, and interact with electronic information. Many such devices operate surprisingly close to very many fundamental physical limits. Understanding how such devices work, and how they can (and cannot) be improved, requires deep insight into the character of physical law as well as engineering practice. The book starts with an introduction to units, forces, and the probabilistic foundations of noise and signaling, then progresses through the electromagnetics of wired and wireless communications, and the quantum mechanics of electronic, optical, and magnetic materials, to discussions of mechanisms for computation, storage, sensing, and display. This self-contained volume will help both physical scientists and computer scientists see beyond the conventional division between hardware and software to understand the implications of physical theory for information manipulation.
The Physics of Information Technology 1st Table of contents:
1. Introduction
2. Interactions, Units, and Magnetism
2.1 Usia
2.2 Parties and Forces
2.3 Order of Magnetism
2.4 Se
2.5 P
3. Physical Mechanics
3.1 Random Variables
3.1.1 Expected Value
3.1.2 Spent Time
3.2 Principles
3.2.1 Mill
3.2.2 P
3.3 Mechanisms
3.3.1 J
3.4 Thermodynamics and Statistical Mechanics
3.4.1 Thermodynamics and Statistical Mechanics
3.4.2 Equation There
3.4.3 Pacuation Disition Ther
3.5 St
4. Information in Physical Systems
4.1 Chapter
4.2 Cat
4.3 The GC
4.4 Fisher Information
4.5 In The
4.6 Selected References
5. Electromagnetic Fields and Waves
5.1 Vector Calculus
5.1.1 Differential Operators
5.1.2 Integral Relationships
5.2 Electrostatics
5.2.1 Electrostatics
Here is a more organized and formatted version of your table of contents, based on the information you provided:
7. Atenas
7.1 Time-Dependent
7.2 Diplomatic
7.3 Logarithmic
7.4 Types
7.5 Probability
7.6
8. Optics
8.1 Refraction and Reflection
8.2 Optical Principles
8.3 Ray Matrices
8.4 Optical Properties
8.5 Polarization
9. Limitless Imaging and Inverse Problems
9.1 Matched Filters and Synthetic Aperture
9.2 Computed Tomography
9.3 Magnetic Resonance Imaging
9.4 Magnetic Resonance Imaging Principles
9.5
9.6 Selected References
9.7 Problems
10. Semiconductor Materials and Devices
10.1 Quantum Mechanics
10.2 Electrical States
10.3 Junctions, Diodes, and Transistors
10.4 Limits
10.5 Steady-State
11. Generating, Detecting, and Modulating Light
11.1 Light Generation
11.2 Luminescence, LEDs, Lasers, and Panels
11.3 Liquid Crystals and Modulation
11.4 Semiconductor Devices
11.5 Selected References
12. Magnetism
12.1 Magnetic Properties
12.1.1 Paramagnetism
12.1.2 Ferromagnetism
12.1.3 Forces, Asthenes, and Ferromagnetism
12.2 Magnetic Recording
12.2.1 Magnetic Media
12.2.2 Magnetic Recording
12.2.3 Recording Systems
12.3 Solid-State Recorders
12.4 Problems
13. Modulation and Coding
13.1 Amplifiers
13.2 Grounding, Shielding, and Leakage
13.3 Modulation
13.3.1 Signal Spectrum
13.3.2 Detection and Exuding
13.3.3 Channel Coding
13.3.4 Coding Techniques
13.4 Selected References
13.5 Problems
14. Superconductivity and Thermal Properties
14.1 Superconductivity
14.1.1 Superconductivity Mechanisms
14.1.2 SQUID (Superconducting Quantum Interference Device)
14.2 Thermodynamic Equilibrium
14.2.1 Thermal Properties
14.3 Relaxation and Response
14.4 Selected References
14.5 Problems
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Neil Gershenfeld,The Physics,Information Technology