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<p>Contributors xi</p> <p>Series Preface xv</p> <p>Preface xvii</p> <p><b>Part A: Fundamental Theory 1</b></p> <p>1 Continuous-Wave EPR 3<br /> <i>Art van der Est</i></p> <p>2 EPR Interactions – <i>g</i>-Anisotropy 17<br /> <i>Peter Gast and Edgar J.J. Groenen</i></p> <p>3 EPR Interactions – Zero-field Splittings 29<br /> <i>Joshua Telser</i></p> <p>4 EPR Interactions – Coupled Spins 63<br /> <i>Eric J.L. McInnes and David Collison</i></p> <p>5 EPR Interactions – Hyperfine Couplings 81<br /> <i>Marina Bennati</i></p> <p>6 EPR Interactions – Nuclear Quadrupole Couplings 95<br /> <i>Stefan Stoll and Daniella Goldfarb</i></p> <p>7 Quantum Chemistry and EPR Parameters 115<br /> <i>Frank Neese</i></p> <p>8 Spin Dynamics 143<br /> <i>Akiva Feintuch and Shimon Vega</i></p> <p>9 Relaxation Mechanisms 175<br /> <i>Sandra S. Eaton and Gareth R. Eaton</i></p> <p><b>Part B: Basic Techniques and Instrumentation 193</b></p> <p>10 Transient EPR 195<br /> <i>Stefan Weber</i></p> <p>11 Pulse EPR 215<br /> <i>Stefan Stoll</i></p> <p>12 EPR Instrumentation 235<br /> <i>Edward Reijerse and Anton Savitsky</i></p> <p>13 EPR Imaging 261<br /> <i>Boris Epel and Howard J. Halpern</i></p> <p>14 EPR Spectroscopy of Nitroxide Spin Probes 277<br /> <i>Enrica Bordignon</i></p> <p><b>Part C: High-Resolution Pulse Techniques 303</b></p> <p>15 FT-EPR 305<br /> <i>Michael K. Bowman, Hanjiao Chen, and Alexander G. Maryasov</i></p> <p>16 Hyperfine Spectroscopy – ENDOR 331<br /> <i>Jeffrey R. Harmer</i></p> <p>17 Hyperfine Spectroscopy – ELDOR-detected NMR 359<br /> <i>Daniella Goldfarb</i></p> <p>18 Hyperfine Spectroscopy – ESEEM 377<br /> <i>Sabine Van Doorslaer</i></p> <p>19 Dipolar Spectroscopy – Double-resonance Methods 401<br /> <i>Gunnar Jeschke</i></p> <p>20 Dipolar Spectroscopy – Single-resonance Methods 425<br /> <i>Peter P. Borbat and Jack H. Freed</i></p> <p>21 Shaped Pulses in EPR 463<br /> <i>Philipp E. Spindler, Philipp Schöps, Alice M. Bowen, Burkhard Endeward, and Thomas F. Prisner</i></p> <p><b>Part D: Special Techniques 483</b></p> <p>22 Pulse Techniques for Quantum Information Processing 485<br /> <i>Gary Wolfowicz and John J.L. Morton</i></p> <p>23 Rapid-scan EPR 503<br /> <i>Gareth R. Eaton and Sandra S. Eaton</i></p> <p>24 EPR Microscopy 521<br /> <i>Aharon Blank</i></p> <p>25 Optically Detected Magnetic Resonance (ODMR) 537<br /> <i>Etienne Goovaerts</i></p> <p>26 Electrically Detected Magnetic Resonance (EDMR) Spectroscopy 559<br /> <i>Christoph Boehme and Hans Malissa</i></p> <p>27 Very-high-frequency EPR 581<br /> <i>Alexander Schnegg</i></p> <p>Index 603</p>

<p> Editors <p><strong>Daniella Goldfarb</strong> <em>is Professor in the Department of Chemical Physics at the Weizmann Institute of Science in Rehovot, Israel.</em> <p><strong>Stefan Stoll</strong> <em>is Assistant Professor in the Department of Chemistry at the University of Washington in Seattle, Washington, USA.</em>

<p> This unique, self-contained resource is the first volume on electron paramagnetic resonance (EPR) spectroscopy in the eMagRes Handbook series. The 27 chapters cover the theoretical principles, the common experimental techniques, and many important application areas of modern EPR spectroscopy. EPR Spectroscopy: Fundamentals and Methods is presented in four major parts: A: Fundamental Theory, B: Basic Techniques and Instrumentation, C: High-Resolution Pulse Techniques, and D: Special Techniques. <p> The first part of the book gives the reader an introduction to basic continuous-wave (CW) EPR and an overview of the different magnetic interactions that can be determined by EPR spectroscopy, their associated theoretical description, and their information content. The second provides the basics of the various EPR techniques, including pulse EPR, and EPR imaging, along with the associated instrumentation. Parts C and D build on parts A and B and offer introductory accounts of a wide range of modern advanced EPR techniques, with examples of applications. The last two parts present most of the new advances that do not appear in most of the classical EPR textbooks that focus on CW EPR. <p> <em>EPR Spectroscopy: Fundamentals and Methods</em> contains, in concise form, all the material needed to understand state-of-the-art EPR spectroscopy at the graduate school/research level, whilst the editors have ensured that it presents the topic at a level accessible to newcomers to the field and others who want to know its range of application and how to apply it.

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