2000
DOI: 10.1046/j.1365-246x.2000.00129.x
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Magnetic properties of hydrothermally synthesized greigite (Fe3S4)--II. High- and low-temperature characteristics

Abstract: SUMMARYThe magnetic behaviour of hydrothermally synthesized greigite was analysed in the temperature range from 4 K to 700°C. Below room temperature, hysteresis parameters were determined as a function of temperature, with emphasis on the temperature range below 50 K. Saturation magnetization and initial susceptibility were studied above room temperature, along with X-ray diffraction analysis of material heated to various temperatures. The magnetic behaviour of synthetic greigite on heating is determined by ch… Show more

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Cited by 132 publications
(127 citation statements)
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“…5a) indicate no magnetic transition in the range of 2 K to 300 K, which is consistent with prior low-temperature measurements of greigite [20,21]. Our data did not show the 10 K remanence peak reported by ref [21].…”
Section: Magnetic Studies Of the Scleritessupporting
confidence: 92%
See 1 more Smart Citation
“…5a) indicate no magnetic transition in the range of 2 K to 300 K, which is consistent with prior low-temperature measurements of greigite [20,21]. Our data did not show the 10 K remanence peak reported by ref [21].…”
Section: Magnetic Studies Of the Scleritessupporting
confidence: 92%
“…5a) indicate no magnetic transition in the range of 2 K to 300 K, which is consistent with prior low-temperature measurements of greigite [20,21]. Our data did not show the 10 K remanence peak reported by ref [21]. The absence of transitions specifically excludes the presence of significant magnetite (which has a transition between 80 and 120 K), monoclinic pyrrhotite (which has a transition at 30-35 K), and hematite (which becomes a true antiferromagnet below 260 K).…”
Section: Magnetic Studies Of the Scleritessupporting
confidence: 88%
“…T C s higher than 590 °C probably indicate maghemitization of magnetite during further heating. Pure magnetite can be produced during heating of pyrrhotite (e.g., Dekkers et al 2000), but not from nickel. During the cooling run, additional T C s between 420 and 500 °C probably indicate the formation of an intermediate ferrimagnetic spinel phase during the heating experiment.…”
Section: Magnetic Mineralogy From χ-T Curvesmentioning
confidence: 99%
“…The sharp magnetic susceptibility increase, starting in all samples at 280°C, indicates the onset of a phase thermal alteration. This temperature is compatible with irreversible greigite decomposition upon heating (Dekkers et al, 2000;Roberts et al, 2011). High-temperature magnetic susceptibility variations undergo another inflection at 320°C and a maximum at 450°C (Fig.…”
Section: Thermomagnetic Curvesmentioning
confidence: 65%