The plots are the center frequency from deuteron NMR signal versus the coil center position. 1 kHz is about 60 ppm in magnetic field. The magnetic field can be calculated from the NMR resonance frequency by B = 2*pi*f/gamma_D, where the deuteron gyromagnetic ratio is 4.10669e7 rad/T s (the Planck constant is included into this number). The files: Df02006.jpg field map from July and September TE-calibration and polarized +|-|+ and -|+|- periods f0mapAug8Sep29_04.pdf 2004 two field maps with +|- polarizations f0mapAug18toSep14.pdf 2006 field maps from three +|-|+ polarization periods f0mapOct11toNov2.pdf 2006 field maps from four -|+|- polarization periods f0Oct31toNov2.pdf 2006 deuteron NMR resonance frequencies for coils 1 - 10 f0dipolemapNov21.pdf 2006 dipole field map with -|+|- polarization, no NMR signal from upstream coils 1 - 3 or downstream coils 8 - 10 Bdipolemap06Nov21.pdf 2006 dipole field map with -|+|- polarization, no NMR signal from upstream coils 1 - 3 or downstream coils 8 - 10 Bmap06Sep13to14.pdf 2006 field maps from three +|-|+ polarization periods f0mapOct11toNov2.pdf 2006 field maps from four -|+|- polarization periods f0Oct31toNov2.pdf 2006 deuteron NMR resonance frequencies for coils 1 - 10 f0dipolemapNov21.pdf 2006 dipole field map with -|+|- polarization, no NMR signal from upstream coils 1 - 3 or downstream coils 8 - 10 Bdipolemap06Nov21.pdf 2006 dipole field map with -|+|- polarization, no NMR signal from upstream coils 1 - 3 or downstream coils 8 - 10 Bmap06Sep13to14.pdf 2006 field map from +|-|+ period Fri Feb 9 14:35:15 CET 2007 Jaakko Koivuniemi