High Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train

What Is High Temperature Superconductivity


High-temperature superconductors are operatively defined as materials that behave as superconductors at temperatures above 77 K, the boiling point of liquid nitrogen, one of the simplest coolants in cryogenics. All materials currently known to conduct at ordinary pressures become superconducting at temperatures far below ambient, and therefore require cooling. The majority of high-temperature superconductors are ceramic materials. On the other hand, Metallic superconductors usually work below −200 °C: they are then called low-temperature superconductors. Metallic superconductors are also ordinary superconductors, since they were discovered and used before the high-temperature ones.


How You Will Benefit


(I) Insights, and validations about the following topics:


Chapter 1: High-temperature superconductivity


Chapter 2: Cooper pair


Chapter 3: Flux pumping


Chapter 4: Macroscopic quantum phenomena


Chapter 5: Mixed conductor


Chapter 6: Pseudogap


Chapter 7: SQUID


(II) Answering the public top questions about high temperature superconductivity.


(III) Real world examples for the usage of high temperature superconductivity in many fields.


(IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of high temperature superconductivity' technologies.


Who This Book Is For


Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of high temperature superconductivity.

1141057175
High Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train

What Is High Temperature Superconductivity


High-temperature superconductors are operatively defined as materials that behave as superconductors at temperatures above 77 K, the boiling point of liquid nitrogen, one of the simplest coolants in cryogenics. All materials currently known to conduct at ordinary pressures become superconducting at temperatures far below ambient, and therefore require cooling. The majority of high-temperature superconductors are ceramic materials. On the other hand, Metallic superconductors usually work below −200 °C: they are then called low-temperature superconductors. Metallic superconductors are also ordinary superconductors, since they were discovered and used before the high-temperature ones.


How You Will Benefit


(I) Insights, and validations about the following topics:


Chapter 1: High-temperature superconductivity


Chapter 2: Cooper pair


Chapter 3: Flux pumping


Chapter 4: Macroscopic quantum phenomena


Chapter 5: Mixed conductor


Chapter 6: Pseudogap


Chapter 7: SQUID


(II) Answering the public top questions about high temperature superconductivity.


(III) Real world examples for the usage of high temperature superconductivity in many fields.


(IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of high temperature superconductivity' technologies.


Who This Book Is For


Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of high temperature superconductivity.

4.99 In Stock
High Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train

High Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train

by Fouad Sabry
High Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train

High Temperature Superconductivity: The secret behind the world's first 600 km/h high-speed magnetic levitation MAGLEV train

by Fouad Sabry

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Overview

What Is High Temperature Superconductivity


High-temperature superconductors are operatively defined as materials that behave as superconductors at temperatures above 77 K, the boiling point of liquid nitrogen, one of the simplest coolants in cryogenics. All materials currently known to conduct at ordinary pressures become superconducting at temperatures far below ambient, and therefore require cooling. The majority of high-temperature superconductors are ceramic materials. On the other hand, Metallic superconductors usually work below −200 °C: they are then called low-temperature superconductors. Metallic superconductors are also ordinary superconductors, since they were discovered and used before the high-temperature ones.


How You Will Benefit


(I) Insights, and validations about the following topics:


Chapter 1: High-temperature superconductivity


Chapter 2: Cooper pair


Chapter 3: Flux pumping


Chapter 4: Macroscopic quantum phenomena


Chapter 5: Mixed conductor


Chapter 6: Pseudogap


Chapter 7: SQUID


(II) Answering the public top questions about high temperature superconductivity.


(III) Real world examples for the usage of high temperature superconductivity in many fields.


(IV) 17 appendices to explain, briefly, 266 emerging technologies in each industry to have 360-degree full understanding of high temperature superconductivity' technologies.


Who This Book Is For


Professionals, undergraduate and graduate students, enthusiasts, hobbyists, and those who want to go beyond basic knowledge or information for any kind of high temperature superconductivity.


Product Details

BN ID: 2940166159649
Publisher: One Billion Knowledgeable
Publication date: 01/16/2022
Series: Emerging Technologies in Materials Science , #10
Sold by: PUBLISHDRIVE KFT
Format: eBook
Pages: 290
File size: 960 KB
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