The SQUID Handbook Applications of SQUIDs and SQUID Systems,9783527404087

The SQUID Handbook Applications of SQUIDs and SQUID Systems

by ;
Edition: 1st
ISBN13: 9783527404087
ISBN10: 3527404082
Format: Hardcover
Pub. Date: 2006-09-22
Publisher(s): Wiley-VCH
List Price: $375.19

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Summary

This two-volume handbook offers a comprehensive and coordinated presentation of SQUIDs (Superconducting Quantum Interference Devices), including device fundamentals, design, technology, system construction and multiple applications. It is intended to bridge the gap between fundamentals and applications, and will be a valuable textbook reference for graduate students and for professionals engaged in SQUID research and engineering. It will also be of use to specialists in multiple fields of practical SQUID applications, from human brain research and heart diagnostics to airplane and nuclear plant testing to prospecting for oil, minerals and buried ordnance. While the first volume presents the theory and fabrication of SQUIDs, the second volume is devoted to applications. It starts with an important aspect of the analysis of measured magnetic signals generated by current sources (the inverse problem), and includes several chapters devoted to various areas of application, namely biomagnetism (research on and diagnostics of human brain, heart, liver, etc.), detection of extremely weak signals, for example electromagnetic radiation and Nuclear Magnetic Resonance. The volume closes with a chapter on motion detectors and the detection of gravity waves.

Author Biography

John Clarke is the world leading authority on SQUIDs and Alex Braginski contributed significantly to the development of high-temperature SQUIDs. They have assembled a team of co-authors who are the pre-eminent specialists in virtually all aspects of SQUIDs and SQUID applications.

Table of Contents

Preface XI
List of Contributors XV
8 SQUID Voltmeters and Amplifiers
1(94)
J. Clarke, A.T. Lee, M. Mück and P.L. Richards
8.1 Introduction
3(1)
8.2 Voltmeters
4(1)
8.3 The SQUID as a Radiofrequency Amplifier
5(15)
8.4 Microstrip SQUID Amplifier
20(12)
8.5 SQUID Readout of Thermal Detectors
32(24)
8.6 Nuclear Magnetic and Quadrupole Resonance and Magnetic Resonance Imaging
56(25)
8.7 The Axion Detector
81(14)
9 SQUIDs for Standards and Metrology
95(44)
J. Gallop and F. Piquemal
9.1 Introduction
96(1)
9.2 SQUIDs in Voltage Metrology
97(4)
9.3 Cryogenic Current Comparator (CCC)
101(22)
9.4 Other Current Metrological Applications of SQUIDs
123(6)
9.5 Future Trends and Conclusion
129(10)
10 The Magnetic Inverse Problem 139(130)
E.A. Lima, A. Irimia and J.P. Wikswo
10.1 The Peculiarities of the Magnetic Inverse Problem
141(4)
10.2 The Magnetic Forward Problem
145(23)
10.3 The Magnetic Inverse Problem
168(86)
10.4 Conclusions
254(15)
11 Biomagnetism 269(122)
J. Vrba, J. Nenonen and L. Trahms
11.1 Introduction
271(3)
11.2 Magnetoencephalography
274(47)
11.3 Magnetocardiography
321(21)
11.4 Quasistatic Field Magnetometry
342(4)
11.5 Magnetoneurography
346(5)
11.6 Liver Susceptometry
351(5)
11.7 Gastromagnetometry
356(4)
11.8 Magnetic Relaxation Immunoassays
360(31)
12 Measurements of Magnetism and Magnetic Properties of Matter 391(50)
R.C. Black and F.C. Wellstood
12.1 Introduction
392(1)
12.2 The SQUID Magnetometer–Susceptometer
392(17)
12.3 Scanning SQUID Microscopy
409(32)
13 Nondestructive Evaluation of Materials and Structures using SQUIDs 441(40)
H.J. Krause and C. Donaldson
13.1 Introduction
442(3)
13.2 Detection of Magnetic Moments
445(3)
13.3 Magnetic Flux Leakage Technique
448(4)
13.4 Static Current Distribution Mapping
452(1)
13.5 Eddy Current Technique
453(14)
13.6 Alternative Excitation Techniques
467(5)
13.7 Conclusion and Prospects
472(9)
14 SQUIDs for Geophysical Survey and Magnetic Anomaly Detection 481(64)
T.R. Clem, C.P. Foley, M.N. Keene
14.1 Introduction
483(1)
14.2 Magnetic Measurements in the Earth's Field
484(10)
14.3 Operation of SQUIDs in Real World Environments
494(5)
14.4 Data Acquisition and Signal Processing
499(5)
14.5 Geophysical Applications of SQUIDs
504(23)
14.6 Magnetic Anomaly Detection Systems using SQUIDs
527(9)
14.7 Future Prospects
536(9)
15 Gravity and Motion Sensors 545(36)
Ho J. Paik
15.1 Introduction
546(1)
15.2 The Superconducting Accelerometer
547(1)
15.3 Superconducting Transducer for Gravitational-Wave Detectors
548(6)
15.4 Superconducting Gravity Gradiometers (SGGs)
554(9)
15.5 Applications of the SGG Technology
563(12)
15.6 Outlook
575(6)
Appendix Physical Constants, Abbreviations and Symbols 581(36)
Index 617

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