Kooperativer Bibliotheksverbund

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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