Measurement of proton and nitrogen polarization in ammonia and a test of equal spin temperature the Spin Muon Collaboration

B. Adeva, E. Arik, A. Arvidson, B. Badelek, G. Baum, P. Berglund, L. Betev, N. de Botton, F. Bradamante, C. Bradtke, A. Bravar, S. Bültmann, D. Crabb, J. Cranshaw, T. Çuhadar, S. Dalla Torre, R. van Dantzig, B. Derro, A. Deshpande, S. DhawanC. Dulya, H. Dutz, S. Eichblatt, D. Fasching, F. Feinstein, C. Fernandez, S. Forthmann, B. Frois, A. Gallas, J. A. Garzon, R. Gehring, H. Gilly, M. Giorgi, S. Goertz, G. Gracia, N. de Groot, M. Grosse Perdekamp, K. Haft, J. Harmsen, D. von Harrach, T. Hasegawa, P. Hautle, N. Hayashi, C. A. Heusch, N. Horikawa, V. W. Hughes, G. Igo, S. Ishimoto, T. Iwata, E. M. Kabuß, T. Kageya, A. Karev, T. J. Ketel, J. Kiryluk, Y. Kisselev, E. Kok, D. Krämer, W. Kröger, K. Kurek, J. Kyynäräinen*, M. Lamanna, U. Landgraf, J. M. Le Goff, F. Lehar, A. de Lesquen, J. Lichtenstadt, M. Litmaath, A. Magnon, G. K. Mallot, A. Martin, T. Matsuda, B. Mayes, J. S. McCarthy, K. Medved, W. Meyer, G. van Middelkoop, D. Miller, Y. Miyachi, K. Mori, J. Nassalski, T. O. Niinikoski, J. E.J. Oberski, A. Ogawa, D. P. Parks, H. Pereira da Costa, F. Perrot-Kunne, D. Peshekhonov, L. Pinsky, S. Platchkov, M. Plo, M. Plückthun, J. Polec, D. Pose, H. Postma, J. Pretz, R. Puntaferro, G. Rädel, G. Reicherz, A. Rijllart, M. Rodriguez, E. Rondio, A. Sandacz, I. Savin, P. Schiavon, A. Schiller, E. P. Sichtermann, F. Simeoni, G. I. Smirnov, A. Staude, A. Steinmetz, U. Stiegler, H. Stuhrmann, F. Tessarotto, W. Tlaczala, A. Tripet, G. Unel, M. Velasco, J. Vogt, R. Voss, C. Whitten, R. Windmolders, W. Wislicki, A. Witzmann, J. Ylöstalo, A. M. Zanetti, K. Zaremba

*Corresponding author for this work

Research output: Contribution to journalArticle

17 Scopus citations

Abstract

The 1996 data taking of the SMC experiment used polarized protons to measure the spin-dependent structure function g1 of the proton. Three liters of solid granular ammonia were irradiated at the Bonn electron linac in order to create the paramagnetic radicals which are needed for polarizing the protons. Proton polarizations of ± (90 ± 2.5)% were routinely reached. An analysis based on a theoretical line shape for spin-1 systems with large quadrupolar broadening was developed which allowed the nitrogen polarization in the ammonia to be determined with a 10% relative error. The measured quadrupolar coupling constant of 14N agrees well with earlier extrapolated values. The polarization of the nitrogen nuclei was measured as a function of the proton polarization in order to provide a test of the equal spin temperature (EST) hypothesis. It was found to be closely valid under the dynamic nuclear polarization conditions with which the protons are polarized. Large deviations from EST could be induced by cross relaxing the proton and nitrogen spin systems at low fields. Nitrogen polarizations up to 40% were reached by these means.

Original languageEnglish (US)
Pages (from-to)60-82
Number of pages23
JournalNuclear Instruments and Methods in Physics Research, Section A: Accelerators, Spectrometers, Detectors and Associated Equipment
Volume419
Issue number1
DOIs
StatePublished - Dec 11 1998

Keywords

  • Dynamic nuclear polarization
  • Nuclear magnetic resonance
  • Quadrupolar interactions

ASJC Scopus subject areas

  • Nuclear and High Energy Physics
  • Instrumentation

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