Die absolute magnetische Suszeptibilität des Wassers und ihre Temperaturabhängigkeit

Auer, H.

doi:10.1002/andp.19334100602

Cited by 40 publications

(6 citation statements)

References 12 publications

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“…Measurements were made at magnetic field strengths of 1,2,3 and 4 T, giving a total of 96 individual scans; the system was calibrated with high-purity samples of silver, gold and aluminium. The results were linear with field and gave susceptibility values for water of -9.060 f 0.003 x and for oxidized blood (methaemoglobin at pH 7.2) of -7.390 i 0.003 x These may be compared with the literature values for water at 20 "C of(-9.047 + 0.001) x (Day 1980, Piccard andDevaud 1920) and (-9.070 i 0.006) x (Auer 1933), and a value for oxidized blood of -7.2i0.4 x (Plavins and Blums 1983).…”

Section: Experimental Measurementsmentioning

confidence: 66%

The determination of magnetic moments of extended samples in a SQUID magnetometer

Blott

Daniell

1993

Meas. Sci. Technol.

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A method is developed for the extraction, from SQUID magnetometer data, of a value for the total magnetic moment of an extended sample. Background drift associated with the superconducting magnet is usually a serious problem in these experiments and the authors show, using computer simulations, that their method deals successfully with this. Reasonably good estimates are required of the length of the sample and of the number of readings over which the background drift is correlated. The method uses a matched filter to carry out deconvolution in the presence of correlated noise. The approach is illustrated for a wire sample of Ni-Cr alloy in extended and compressed forms. Results are analysed for pure water and oxidized human blood, giving volume susceptibility values of (-9.060+or-0.003)*10-6 and (-7.390+or-0.003)*10-6 respectively.

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Section: Experimental Measurementsmentioning

confidence: 66%

The determination of magnetic moments of extended samples in a SQUID magnetometer

Blott

Daniell

1993

Meas. Sci. Technol.

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“…The most modern determination for water [19], however, is 0.25 % larger in magnitude with a stated combined standard uncertainty of 0.067 %. Correction to this value would shift the ICT value and the result of Burris and Hause into near-perfect agreement with the theoretical value but, of course, would shift the CRC value [6] further from theory.…”

Section: Methodsmentioning

confidence: 93%

“…This value makes improbable, but does not exclude, the result of Bauer and Piccard [13] which, despite general acceptance of Van Vleck's theory, continued to be held in esteem by certain experts [12,20]. Finally, the mean of the experimental values for susceptibility of reference air given by the ICT [11] (corrected for the modern value of the density of water [19]) differs by only -0.5 % from that recommended here.…”

Section: Discussionmentioning

confidence: 99%

Equation for the volume magnetic susceptibility of moist air

Davis¹

1998

Metrologia

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The volume magnetic susceptibility of moist air χm(ma) is needed to correct the results of certain experiments to vacuum conditions. This paper derives an appropriate equation for χm(ma) for which pressure, temperature, relative humidity, and carbon dioxide content are variable parameters. The derived equation also depends sensitively on the molar susceptibility of oxygen, for which the handbook values are inconsistent by about 1.4%. The equation resolves this discrepancy in part.

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“…The chemical shift effect identified by Hindman (1) in water was suggested by him as being due to a temperature-dependent variation of the shielding anisotropy. He used the small temperature dependence of the susceptibility of water as measured by Auer (8) as a correction for his observed values. There are, however, a number of factors which could alter the susceptibility of tissue in ways that might result in errors in temperature measurements made using the method.…”

Section: Mr Imagingmentioning

confidence: 99%

An evaluation of the effects of susceptibility changes on the water chemical shift method of temperature measurement in human peripheral muscle

Young¹,

Hajnal²,

Roberts³

et al. 1996

Magnetic Resonance in Med

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Divergencies between chemical shift measurements of temperature and directly measured values using optical sensors have been studied in vivo in human peripheral muscle with the assistance of a variety of experimental and theoretical techniques. These include the modelling of both thermal and susceptibility changes using two- and three-dimensional finite element methods, as well as the use of multi-wavelength near-infrared observations. The conclusion of these studies is that a simple temperature calibration is not accessible, with results affected by the complex response of the tissue itself.

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Die absolute magnetische Suszeptibilität des Wassers und ihre Temperaturabhängigkeit

Cited by 40 publications

References 12 publications

The determination of magnetic moments of extended samples in a SQUID magnetometer

The determination of magnetic moments of extended samples in a SQUID magnetometer

Equation for the volume magnetic susceptibility of moist air

An evaluation of the effects of susceptibility changes on the water chemical shift method of temperature measurement in human peripheral muscle

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