Kooperativer Bibliotheksverbund

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Format: 1 online resource (xvii, 412 pages) : , digital, PDF file(s).

ISBN: 9780511846380 (ebook)

Content: 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.

Note: Title from publisher's bibliographic system (viewed on 05 Oct 2015). , General principles and characteristics of optical magnetometers / D.F. Jackson Kimball, E.B. Alexandrov and D. Budker -- Quantum noise in atomic magnetometers / M.V. Romalis -- Quantum noise, squeezing, and entanglement in radio-frequency optical magnetometers / K. Jensen and E.S. Polzik -- Mx and Mz magnetometers / E.B. Alexandrov and A.K. Vershovskiy -- Spin-exchange-relaxation-free (serf) magnetometers / I. Savukov and S.J. Seltzer -- Optical magnetometry with modulated light / D.F. Jackson Kimball [and others] -- Microfabricated atomic magnetometers / S. Knappe and J. Kitching -- Optical magnetometry with nitrogen-vacancy centers in diamond / V.M. Acosta [and others] -- Magnetometry with cold atoms / W. Gawlik and J.M. Higbie -- Helium magnetometers / R.E. Slocum, D.D. McGregor and A.W. Brown -- Surface coatings for atomic magnetometry / S.J. Seltzer, M.-A. Bouchiat and M.V. Balabas -- Magnetic shielding / V.V. Yashchuk, S.-K. Lee and E. Paperno -- Remote detection magnetometry / S.M. Rochester [and others] -- Detection of nuclear magnetic resonance with atomic magnetometers / M.P. Ledbetter [and others] -- Space magnetometry / B. Patton [and others] -- Detection of biomagnetic fields / A. Ben-Amar Baranga, T.G. Walker and R.T. Wakai -- Geophysical applications / M.D. Prouty [and others] -- Tests of fundamental physics with optical magnetometers / D.F. Jackson Kimball, S.K. Lamoreaux and T.E. Chupp -- Nuclear magnetic resonance gyroscopes / E.A. Donley and J. Kitching -- Commercial magnetometers and their application / D.C. Hovde.

Additional Edition: Print version: ISBN 9781107010352

Language: English

URL: https://doi.org/10.1017/CBO9780511846380

UID:

Format: XVII, 412 S. : , Ill., graph. Darst.

Edition: 1. publ.

ISBN: 978-1-107-01035-2

Language: English

Subjects: Physics

Keywords: Magnetometer ; Optische Messung

URL: Inhaltsverzeichnis

URL: 13

URL: 80

UID:

Format: 1 Online-Ressource (xvii, 412 pages)

Edition: First published

ISBN: 9780511846380 , 9781107010352

Content: General principles and characteristics of optical magnetometers / D.F. Jackson Kimball, E.B. Alexandrov and D. Budker -- Quantum noise in atomic magnetometers / M.V. Romalis -- Quantum noise, squeezing, and entanglement in radio-frequency optical magnetometers / K. Jensen and E.S. Polzik -- Mx and Mz magnetometers / E.B. Alexandrov and A.K. Vershovskiy -- Spin-exchange-relaxation-free (serf) magnetometers / I. Savukov and S.J. Seltzer -- Optical magnetometry with modulated light / D.F. Jackson Kimball [and others] -- Microfabricated atomic magnetometers / S. Knappe and J. Kitching -- Optical magnetometry with nitrogen-vacancy centers in diamond / V.M. Acosta [and others] -- Magnetometry with cold atoms / W. Gawlik and J.M. Higbie -- Helium magnetometers / R.E. Slocum, D.D. McGregor and A.W. Brown -- Surface coatings for atomic magnetometry / S.J. Seltzer, M.-A. Bouchiat and M.V. Balabas -- Magnetic shielding / V.V. Yashchuk, S.-K. Lee and E. Paperno -- Remote detection magnetometry / S.M. Rochester [and others] -- Detection of nuclear magnetic resonance with atomic magnetometers / M.P. Ledbetter [and others] -- Space magnetometry / B. Patton [and others] -- Detection of biomagnetic fields / A. Ben-Amar Baranga, T.G. Walker and R.T. Wakai -- Geophysical applications / M.D. Prouty [and others] -- Tests of fundamental physics with optical magnetometers / D.F. Jackson Kimball, S.K. Lamoreaux and T.E. Chupp -- Nuclear magnetic resonance gyroscopes / E.A. Donley and J. Kitching -- Commercial magnetometers and their application / D.C. Hovde

Content: General principles and characteristics of optical magnetometers / D.F. Jackson Kimball, E.B. Alexandrov and D. Budker -- Quantum noise in atomic magnetometers / M.V. Romalis -- Quantum noise, squeezing, and entanglement in radio-frequency optical magnetometers / K. Jensen and E.S. Polzik -- Mx and Mz magnetometers / E.B. Alexandrov and A.K. Vershovskiy -- Spin-exchange-relaxation-free (serf) magnetometers / I. Savukov and S.J. Seltzer -- Optical magnetometry with modulated light / D.F. Jackson Kimball [and others] -- Microfabricated atomic magnetometers / S. Knappe and J. Kitching -- Optical magnetometry with nitrogen-vacancy centers in diamond / V.M. Acosta [and others] -- Magnetometry with cold atoms / W. Gawlik and J.M. Higbie -- Helium magnetometers / R.E. Slocum, D.D. McGregor and A.W. Brown -- Surface coatings for atomic magnetometry / S.J. Seltzer, M.-A. Bouchiat and M.V. Balabas -- Magnetic shielding / V.V. Yashchuk, S.-K. Lee and E. Paperno -- Remote detection magnetometry / S.M. Rochester [and others] -- Detection of nuclear magnetic resonance with atomic magnetometers / M.P. Ledbetter [and others] -- Space magnetometry / B. Patton [and others] -- Detection of biomagnetic fields / A. Ben-Amar Baranga, T.G. Walker and R.T. Wakai -- Geophysical applications / M.D. Prouty [and others] -- Tests of fundamental physics with optical magnetometers / D.F. Jackson Kimball, S.K. Lamoreaux and T.E. Chupp -- Nuclear magnetic resonance gyroscopes / E.A. Donley and J. Kitching -- Commercial magnetometers and their application / D.C. Hovde

Note: Title from publisher's bibliographic system (viewed on 05 Oct 2015) , Cover; Optical Magnetometry; Title; Copyright; Contents; Contributors; Preface; Part I Principles and techniques; 1 General principles and characteristics of optical magnetometers; 1.1 Introduction; 1.1.1 Fundamental sensitivity limits; 1.1.2 Zeeman shifts and atomic spin precession; 1.1.3 Quantum beats and dynamic range; 1.2 Model of an optical magnetometer; 1.3 Density matrix and atomic polarization moments; 1.4 Sensitivity and accuracy; 1.4.1 Variational sensitivity (short-term resolution) and long-term stability; 1.4.2 Parameter optimization; 1.4.3 Absolute accuracy and systematic errors , 1.5 Vector and scalar magnetometers1.6 Applications; Spin squeezing; Entanglement between atomic ensembles; Mx-resonance registration techniques: self-oscillating and non-self-oscillating schemes; bold0mu mumu MM2.5pt plus 1.59999pt minus 1.09999ptMMMMbold0mu mumu xx2.5pt plus 1.59999pt minus 1.09999ptxxxx-magnetometer sensor optimization; Contributions to T2; Refocusing the dephasing; Measurements via density modulations; Spinor-condensate magnetometer; Discharge effects; Light shifts; Effect of shell shape; Optimal shell separation; The Explorer Program , The Orbiting Geophysical Observatories2 Quantum noise in atomic magnetometers; 2.1 Introduction; 2.2 Spin-projection noise; 2.3 Faraday rotation measurements; 2.4 Quantum back-action; 2.5 Time correlation of spin-projection noise; 2.6 Conditions for spin noise dominance; 2.7 Spin projection limits on magnetic field sensitivity; 2.8 Spin squeezing and atomic magnetometry; 2.9 Conclusion; 3 Noise, squeezing, and entanglement; 3.1 Sources of noise; 3.1.1 Atomic projection noise; 3.1.2 Photon shot noise; 3.1.3 Back-action noise and QND measurements; 3.1.4 Technical (classical) noise , 3.1.5 Entanglement and spin squeezing3.2 A pulsed radiofrequency magnetometer and the projection noise limit; 3.2.1 Pulsed RF magnetometry; 3.2.2 Sensitivity and bandwidth; 3.3 Light--atom interaction; 3.3.1 A spin-polarized atomic ensemble interacting with polarized light; 3.3.2 Conditional spin squeezing; 3.3.3 Larmor precession, back-action noise, and two atomic ensembles; 3.3.4 Swap and squeezing interaction; 3.4 Demonstration of high-sensitivity, projection-noise-limited magnetometry; 3.4.1 Setup, pulse sequence, and procedure; 3.4.2 The projection-noise-limited magnetometer , 3.5 Demonstration of entanglement-assisted magnetometry3.6 Conclusions; Alkali--helium magnetometer; Balanced K and Rb HFS magnetometers; Sensitivity and limitations; Optical-lattice magnetometry; Spinor physics; Paramagnetic resonance: magnetically-driven spin precession (MSP) scalar mode; Pi-pumping magnetic resonance; Effect of openings; Annealing; Magsat and beyond; Mariner 4; 4 Mx and Mz magnetometers; 4.1 Dynamics of magnetic resonance in an alternating field; 4.1.1 Bloch equations and Bloch sphere , 4.1.2 Types of magnetic resonance signals: bold0mu mumu MMRawMMMMbold0mu mumu zzRawzzzz and bold0mu mumu MMRawMMMMbold0mu mumu xxRawxxxx signals , Machine generated contents note: Part I. Principles and Techniques: 1. General principles and characteristics of optical magnetometers D. F. Jackson Kimball, E. B. Alexandrov and D. Budker; 2. Quantum noise in atomic magnetometers M. V. Romalis; 3. Quantum noise, squeezing, and entanglement in radio-frequency optical magnetometers K. Jensen and E. S. Polzik; 4. Mx and Mz magnetometers E. B. Alexandrov and A. K. Vershovskiy; 5. Spin-exchange-relaxation-free (serf) magnetometers I. Savukov and S. J. Seltzer; 6. Optical magnetometry with modulated light D. F. Jackson Kimball, S. Pustelny, V. V. Yashchuk and D. Budker; 7. Microfabricated atomic magnetometers S. Knappe and J. Kitching; 8. Optical magnetometry with nitrogen-vacancy centers in diamond V. M. Acosta, D. Budker, P. R. Hemmer, J. R. Maze and R. L. Walsworth; 9. Magnetometry with cold atoms W. Gawlik and J. M. Higbie; 10. Helium magnetometers R. E. Slocum, D. D. McGregor and A. W. Brown; 11. Surface coatings for atomic magnetometry S. J. Seltzer, M.-A. Bouchiat and M. V. Balabas; 12. Magnetic shielding V. V. Yashchuk, S.-K. Lee and E. Paperno; Part II. Applications: 13. Remote detection magnetometry S. M. Rochester, J. M. Higbie, B. Patton, D. Budker, R. Holzlöhner and D. Bonaccini Calia; 14. Detection of nuclear magnetic resonance with atomic magnetometers M. P. Ledbetter, I. Savukov, S. J. Seltzer and D. Budker; 15. Space magnetometry B. Patton, A. W. Brown, R. E. Slocum and E. J. Smith; 16. Detection of biomagnetic fields A. Ben-Amar Baranga, T. G. Walker and R. T. Wakai; 17. Geophysical applications M. D. Prouty, R. Johnson, I. Hrvoic and A. K. Vershovskiy; Part III. Broader Impact: 18. Tests of fundamental physics with optical magnetometers D. F. Jackson Kimball, S. K. Lamoreaux and T. E. Chupp; 19. Nuclear magnetic resonance gyroscopes E. A. Donley and J. Kitching; 20. Commercial magnetometers and their application D. C. Hovde, M. D. Prouty, I. Hrvoic and R. E. Slocum; Index.

Additional Edition: ISBN 9781107010352

Additional Edition: Erscheint auch als Druck-Ausgabe Optical magnetometry Cambridge [u.a.] : Cambridge University Press, 2013 ISBN 9781107010352

Language: English

Subjects: Physics

Keywords: Magnetometer ; Optische Messung ; Magnetometer ; Optische Messung

DOI: 10.1017/CBO9780511846380

URL: Volltext

UID:

Format: xvii, 412 p. : , ill.

Edition: Electronic reproduction. Ann Arbor, MI : ProQuest, 2015. Available via World Wide Web. Access may be limited to ProQuest affiliated libraries.

Content: "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"--

Note: Machine generated contents note: Part I. Principles and Techniques: 1. General principles and characteristics of optical magnetometers D. F. Jackson Kimball, E. B. Alexandrov and D. Budker; 2. Quantum noise in atomic magnetometers M. V. Romalis; 3. Quantum noise, squeezing, and entanglement in radio-frequency optical magnetometers K. Jensen and E. S. Polzik; 4. Mx and Mz magnetometers E. B. Alexandrov and A. K. Vershovskiy; 5. Spin-exchange-relaxation-free (serf) magnetometers I. Savukov and S. J. Seltzer; 6. Optical magnetometry with modulated light D. F. Jackson Kimball, S. Pustelny, V. V. Yashchuk and D. Budker; 7. Microfabricated atomic magnetometers S. Knappe and J. Kitching; 8. Optical magnetometry with nitrogen-vacancy centers in diamond V. M. Acosta, D. Budker, P. R. Hemmer, J. R. Maze and R. L. Walsworth; 9. Magnetometry with cold atoms W. Gawlik and J. M. Higbie; 10. Helium magnetometers R. E. Slocum, D. D. McGregor and A. W. Brown; 11. Surface coatings for atomic magnetometry S. J. Seltzer, M.-A. Bouchiat and M. V. Balabas; 12. Magnetic shielding V. V. Yashchuk, S.-K. Lee and E. Paperno; Part II. Applications: 13. Remote detection magnetometry S. M. Rochester, J. M. Higbie, B. Patton, D. Budker, R. Holzlöhner and D. Bonaccini Calia; 14. Detection of nuclear magnetic resonance with atomic magnetometers M. P. Ledbetter, I. Savukov, S. J. Seltzer and D. Budker; 15. Space magnetometry B. Patton, A. W. Brown, R. E. Slocum and E. J. Smith; 16. Detection of biomagnetic fields A. Ben-Amar Baranga, T. G. Walker and R. T. Wakai; 17. Geophysical applications M. D. Prouty, R. Johnson, I. Hrvoic and A. K. Vershovskiy; Part III. Broader Impact: 18. Tests of fundamental physics with optical magnetometers D. F. Jackson Kimball, S. K. Lamoreaux and T. E. Chupp; 19. Nuclear magnetic resonance gyroscopes E. A. Donley and J. Kitching; 20. Commercial magnetometers and their application D. C. Hovde, M. D. Prouty, I. Hrvoic and R. E. Slocum; Index.

Language: English

Keywords: Electronic books.

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