Questions to be answered in this section include:


2H2O Hydration Convection Attenuation Cage 


  1. Abergel D, Louis-Joseph A, Lallemend JY (1996) Amplification of radiation damping in a 600-MHz NMR spectrometer: application to the study of water-protein interactions. J Biomol NMR 8:15–22PubMedCrossRefGoogle Scholar
  2. Augustine MP (2002) Transient properties of radiation damping. Prog Nucl Magn Reson Spectrosc 40:111–150CrossRefGoogle Scholar
  3. Bloembergen N, Pound RV (1954) Radiation damping in magnetic resonance experiments. Phys Rev 95:8–12CrossRefGoogle Scholar
  4. Bockmann A, Guittet E (1995) Water selective pseudo-3D NOESY-TOCSY experiment using ‘radiation damping’: application to the study of the effects of SCN- on the hydration of BPTI. J Chim Phys Chim Biol 92:1923–1928Google Scholar
  5. Broekaert P, Jeener J (1995) Suppression of radiation damping in NMR in liquids by active electronic feedback. J Magn Reson 113A:60–64Google Scholar
  6. Coombs CF (ed) (1972) Basic electronis instrument handbook. McGraw-Hill, New YorkGoogle Scholar
  7. Dooley DJ (ed) (1980) Data conversion integrated circuits. IEEE Press, New YorkGoogle Scholar
  8. Krishnan VV, Thornton KH, Cosman M (1999) An improved experimental scheme to measure self-diffusion coefficients of biomolecules with an advantageous use of radiation damping. Chem Phys Lett 302:317–323CrossRefGoogle Scholar
  9. Lippens G, Dhallium C, Wieruszeski JM (1995) Use of a water flip-back pulse in the homonuclear NOESY experiment. J Biomol NMR 5:327–331PubMedCrossRefGoogle Scholar
  10. Mazda FF (1987) Electronic instruments and measurement techniues. Cambridge University Press, New YorkGoogle Scholar
  11. Oliver BM, Cage JM (1971) Electronic measurements and instrumentation. McGraw-Hill, New YorkGoogle Scholar
  12. Oxenoid K, Kim HJ, Jacob J, Sonnichsen FD, Sanders CR (2004) NMR assignments for a helical 40 kDa membrane protein. J Am Chem Soc 126:5048–5049PubMedCrossRefGoogle Scholar
  13. Parker SP, Weil J, Richman B (1984) McGraw-Hill encyclopedia of electronics and computers. McGraw-Hill, New YorkGoogle Scholar
  14. Picard L, von Keinlin M, Decorps M (1996) An overcoupled NMR probe for the reduction of radiation damping. J Magn Reson 117A:262–266Google Scholar
  15. Sheingold D (ed) (1977) Analog-digital conversion notes. Prenctice-Hall, NJGoogle Scholar
  16. Szoke A, Meiboom S (1959) Radiation damping in nuclear magnetic resonance. Phys Rev 113:585–586CrossRefGoogle Scholar

Copyright information

© Springer Science+Business Media New York 2013

Authors and Affiliations

  1. 1.Department of Pharmaceutical and Biomedical Sciences College of PharmacyUniversity of GeorgiaAthensUSA

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