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Library | Item Barcode | Call Number | Material Type | Item Category 1 | Status |
|---|---|---|---|---|---|
Searching... | 30000010312323 | QC754.2.M3 O68 2013 | Open Access Book | Book | Searching... |
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Summary
Summary
Featuring chapters written by leading experts in magnetometry, this book provides comprehensive coverage of the principles, technology and diverse applications of optical magnetometry, from testing fundamental laws of nature to detecting biomagnetic fields and medical diagnostics. Readers will find a wealth of technical information, from antirelaxation-coating techniques, microfabrication and magnetic shielding to geomagnetic-field measurements, space magnetometry, detection of biomagnetic fields, detection of NMR and MRI signals and rotation sensing. The book includes an original survey of the history of optical magnetometry and a chapter on the commercial use of these technologies. The book is supported by extensive online material, containing historical overviews, derivations, sideline discussion, additional plots and tables, available at www.cambridge.org/9781107010352. As well as introducing graduate students to this field, the book is also a useful reference for researchers in atomic physics.
Table of Contents
| Part I Principles and Techniques: |
| 1 General principles and characteristics of optical magnetometersD. F. Jackson Kimball and E. B. Alexandrov and D. Budker |
| 2 Quantum noise in atomic magnetometersM. V. Romalis |
| 3 Quantum noise, squeezing, and entanglement in radio-frequency optical magnetometers K. JensenE. S. Polzik |
| 4 Mx and Mz magnetometersE. B. Alexandrov and A. K. Vershovskiy |
| 5 Spin-exchange-relaxation-free (serf) magnetometers I. SavukovS. J. Seltzer |
| 6 Optical magnetometry with modulated lightD. F. Jackson Kimball and S. Pustelny and V. V. Yashchuk and D. Budker |
| 7 Microfabricated atomic magnetometersS. Knappe and J. Kitching |
| 8 Optical magnetometry with nitrogen-vacancy centers in diamondV. M. Acosta and D. Budker, and P. R. Hemmer and J. R. Maze and R. L. Walsworth |
| 9 Magnetometry with cold atomsW. Gawlik and J. M. Higbie |
| 10 Helium magnetometersR. E. Slocum and D. D. McGregor and A. W. Brown |
| 11 Surface coatings for atomic magnetometryS. J. Seltzer and M.-A. Bouchiat and M. V. Balabas |
| 12 Magnetic shieldingV. V. Yashchuk and S.-K. Lee and E. Paperno |
| Part II Applications: |
| 13 Remote detection magnetometryS. M. Rochester and J. M. Higbie and B. Patton and D. Budker and R. Holzlöhner and D. Bonaccini Calia |
| 14 Detection of nuclear magnetic resonance with atomic magnetometersM. P. Ledbetter and I. Savukov and S. J. Seltzer and D. Budker |
| 15 Space magnetometryB. Patton, and A. W. Brown and R. E. Slocum and E. J. Smith |
| 16 Detection of biomagnetic fieldsA. Ben-Amar Baranga and T. G. Walker and R. T. Wakai |
| 17 Geophysical applicationsM. D. Prouty and R. Johnson and I. Hrvoic and A. K. Vershovskiy |
| Part III Broader Impact: |
| 18 Tests of fundamental physics with optical magnetometersD. F. Jackson Kimball and S. K. Lamoreaux and T. E. Chupp |
| 19 Nuclear magnetic resonance gyroscopesE. A. Donley and J. Kitching |
| 20 Commercial magnetometers and their applicationD. C. Hovde and M. D. Prouty and I. Hrvoic and R. E. Slocum |
| Index |
