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Journal Article

The effects of ferromagnetism and interstitial hydrogen on the equation of states of hcp and dhcp FeH x : Implications for the Earth's inner core age Available to Purchase

Hitoshi Gomi, Yingwei Fei, Takashi Yoshino
Published: 01 August 2018
American Mineralogist (2018) 103 (8): 1271–1281.
DOI: https://doi.org/10.2138/am-2018-6295
... iron with interstitial hydrogen by using the Korringa-Kohn-Rostoker method with the coherent potential approximation (KKR-CPA). The results indicate a discontinuous volume change at the magnetic transition and almost no compositional ( x ) dependence in the ferromagnetic phase at 20 GPa, whereas...
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View PDF for article title, The effects of <span class="search-highlight">ferromagnetism</span> and interstitial hydrogen on the equation of states of hcp and dhcp FeH x : Implications for the Earth&#x27;s inner core age
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Journal Article

The source of ferromagnetism in zircon Available to Purchase

R. R. Lewis, F. E. Senftle
Published: 01 October 1966
American Mineralogist (1966) 51 (9-10): 1467–1475.
...R. R. Lewis; F. E. Senftle Abstract Magnetic susceptibility and magnetization measurements on more than 100 specimens of zircon from granitic rocks show weak ferromagnetic properties. Leaching, reduction, and oxidation experiments along with magnetization studies on some of these specimens indicate...
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Journal Article

Degree of magnetic anisotropy as a strain intensity gauge in ferromagnetic granites Available to Purchase

Koushik Sen, Sukhen Majumder, Manish A. Mamtani
Published: 01 July 2005
Journal of the Geological Society (2005) 162 (4): 583–586.
DOI: https://doi.org/10.1144/0016-764904-144
...Koushik Sen; Sukhen Majumder; Manish A. Mamtani Abstract Anisotropy of magnetic susceptibility data for a ferromagnetic granite (Godhra Granite, NW India) are presented and it is shown that the degree of magnetic anisotropy ( P ′) is not controlled by the mean susceptibility ( K m ). Analyses...
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View PDF for article title, Degree of magnetic anisotropy as a strain intensity gauge in <span class="search-highlight">ferromagnetic</span> granites
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Journal Article

ESTIMATING PARAMETERS OF A FERROMAGNETIC CYLINDRICAL CONDUCTOR BY INVERSION OF TEM FIELD Available to Purchase

M.I. Epov, G.M. Morozova, E.Yu. Antonov, S.V. Shatrov
Published: 01 November 2004
Russ. Geol. Geophys. (2004) 45 (11): 1358–1368.
...M.I. Epov; G.M. Morozova; E.Yu. Antonov; S.V. Shatrov A new approach to estimating the wall thickness and magnetic permeability of well casing strings for flaw detector designing implies simulation of the TEM response of a current loop in a cylindrically layered ferromagnetic conductor using...
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View PDF for article title, ESTIMATING PARAMETERS OF A <span class="search-highlight">FERROMAGNETIC</span> CYLINDRICAL CONDUCTOR BY INVERSION OF TEM FIELD
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Journal Article

SYNTHESIS, CHARACTERIZATION, AND EVALUATION OF A FERROMAGNETICALLY MODIFIED NATURAL ZEOLITE COMPOSITE FOR REMOVAL OF Cs + AND Sr 2+ Available to Purchase

Hossein Faghihian, Mohammad Moayed, Alireza Firooz, Mozhgan Iravani
Published: 01 June 2013
Clays and Clay Minerals (2013) 61 (3): 193–203.
DOI: https://doi.org/10.1346/CCMN.2013.0610303
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View PDF for article title, SYNTHESIS, CHARACTERIZATION, AND EVALUATION OF A <span class="search-highlight">FERROMAGNETICALLY</span> MODIFIED NATURAL ZEOLITE COMPOSITE FOR REMOVAL OF Cs + AND Sr 2+
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Journal Article

Preferred orientation of ferromagnetic phases in rock-forming minerals: insights from magnetic anisotropy of single crystals Available to Purchase

Ann M. Hirt, Andrea R. Biedermann
Published: 11 October 2018
Canadian Journal of Earth Sciences (2019) 56 (9): 994–1001.
DOI: https://doi.org/10.1139/cjes-2018-0172
...Ann M. Hirt; Andrea R. Biedermann In the early days of paleomagnetism, David Strangway was interested in understanding why igneous rocks are faithful recorders of the Earth’s magnetic field. He recognized that ferromagnetic (s.l.) grains that could be discerned by optical microscopy were too large...
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Includes: Supplemental Content
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Total energy of hcp and dhcp FeHx with ferromagnetic and non-magnetic spin alignment, where x is hydrogen content (filled square = ferromagnetic dhcp, filled circle = non-magnetic dhcp, open square = ferromagnetic hcp, open circle = non-magnetic hcp). (Color online.)

Total energy of hcp and dhcp FeH x with ferromagnetic and non-magnetic spi... Available to Purchase

Published: 01 August 2018
Figure 1. Total energy of hcp and dhcp FeH x with ferromagnetic and non-magnetic spin alignment, where x is hydrogen content (filled square = ferromagnetic dhcp, filled circle = non-magnetic dhcp, open square = ferromagnetic hcp, open circle = non-magnetic hcp). (Color online.)
Image
Examples of magnetic properties in representative Lorne Plateau sites. The hysteresis loops show a single magnetic phase saturating in low applied fields. The thermomagnetic determinations identify Curie points of low-Ti titanomagnetite as the dominant ferromagnet; dashed lines are cooling curves and intensities of magnetization are x10−5 Am2/kg. The IRM forward and backfield curves identify the presence of a low coercivity ferromagnet, presumably titanomagnetite.

Examples of magnetic properties in representative Lorne Plateau sites. The ... Open Access

Published: 01 January 2025
Figure 4. Examples of magnetic properties in representative Lorne Plateau sites. The hysteresis loops show a single magnetic phase saturating in low applied fields. The thermomagnetic determinations identify Curie points of low-Ti titanomagnetite as the dominant ferromagnet; dashed lines
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Continuous (normalized) low-field susceptibility versus temperature measurements from room temperature to 700 °C. The red curves are for heating steps and the blue curves are for cooling steps. Curie points of ferromagnetic (senso lato) materials are typically estimated using either the inflection point (Tauxe 1998) or Hopkinson Peak methods (Hopkinson 1890). All Ilímaussaq samples yield paramagnetic behavior where the magnetic susceptibility (X) exhibits hyperbolic decay with increasing temperature following the paramagnetic Curie-Weiss law [X = C/(T − Tc)], where C is a material-specific Curie constant, T is absolute temperature, and Tc is the Curie temperature, both in K). No evidence of primary ferromagnetic (s.l.) magnetic phases is observed, although for most samples, a ferromagnetic (s.l.) material did grow from the Fe-Mg silicates in the samples during the heating experiment (see Figure 8 and text for discussion).

Continuous (normalized) low-field susceptibility versus temperature measu... Available to Purchase

Published: 18 December 2024
Fig. 7. Continuous (normalized) low-field susceptibility versus temperature measurements from room temperature to 700 °C. The red curves are for heating steps and the blue curves are for cooling steps. Curie points of ferromagnetic ( senso lato ) materials are typically estimated using either
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Classic spin structures corresponding to:

Classic spin structures corresponding to: ferromagnetic (FM) anti-ferroma... Available to Purchase

Published: 01 January 2001
Figure 1. Classic spin structures corresponding to: ferromagnetic (FM) anti-ferromagnetic (AF) ferrimagnetic (FI) weak ferromagnetic (WF) noncollinear antiferromagnetic (NC-AF) spin glass (SG) arrangements of the thermal average cation magnetic moments. In the AF and NC-AF structures
Image
Calculated phase boundary of (top) Al2O3 and anti-ferromagnetic Cr2O3 and (bottom) Al2O3 and anti-ferromagnetic Fe2O3 across values of U vs. the experimental curve. Ground state structures are pictured at the top of each plot. (Color online.)

Calculated phase boundary of ( top ) Al 2 O 3 and anti-ferromagnetic Cr 2 ... Available to Purchase

Published: 01 June 2023
Figure 6. Calculated phase boundary of ( top ) Al 2 O 3 and anti-ferromagnetic Cr 2 O 3 and ( bottom ) Al 2 O 3 and anti-ferromagnetic Fe 2 O 3 across values of U vs. the experimental curve. Ground state structures are pictured at the top of each plot. (Color online.)
Journal Article

Optimal ferromagnetic fraction in till samples along ice-flow paths: case studies from the Sue-Dianne and Thompson deposits, Canada Available to Purchase

A.-A. Sappin, C. Dupuis, G. Beaudoin, M. Pozza, I. McMartin, M.B. McClenaghan
Published: 18 June 2014
Geochemistry: Exploration, Environment, Analysis (2014) 14 (4): 315–329.
DOI: https://doi.org/10.1144/geochem2013-212
...A.-A. Sappin; C. Dupuis; G. Beaudoin; M. Pozza; I. McMartin; M.B. McClenaghan Abstract Iron oxides are minerals resistant to chemical alteration and mechanical abrasion, and which have ferromagnetic properties and a range of chemical compositions. These characteristics are useful as indicator...
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View PDF for article title, Optimal <span class="search-highlight">ferromagnetic</span> fraction in till samples along ice-flow paths: case studies from the Sue-Dianne and Thompson deposits, Canada
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Calculated phase boundary of (top) Al2O3 and ferromagnetic Cr2O3 and (bottom) Al2O3 and ferromagnetic Fe2O3 across values of U vs. the experimental curve (Chatterjee et al. 1982). Ground state structures are pictured at the top of each plot. (Color online.)

Calculated phase boundary of ( top ) Al 2 O 3 and ferromagnetic Cr 2 O 3 ... Available to Purchase

Published: 01 June 2023
Figure 5. Calculated phase boundary of ( top ) Al 2 O 3 and ferromagnetic Cr 2 O 3 and ( bottom ) Al 2 O 3 and ferromagnetic Fe 2 O 3 across values of U vs. the experimental curve ( Chatterjee et al. 1982 ). Ground state structures are pictured at the top of each plot. (Color online.)
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Log-log plot of nickel concentration versus ferromagnetic susceptibility for anorthositic lunar meteorites (unpublished results). Ferromagnetic susceptibility is low-field susceptibility corrected from the paramagnetic susceptibility and is thus a direct measure of metal amount.

Log-log plot of nickel concentration versus ferromagnetic susceptibility fo... Available to Purchase

Published: 01 August 2009
F igure 6 Log-log plot of nickel concentration versus ferromagnetic susceptibility for anorthositic lunar meteorites (unpublished results). Ferromagnetic susceptibility is low-field susceptibility corrected from the paramagnetic susceptibility and is thus a direct measure of metal amount.
Book Chapter

Magnetic Properties of Rocks Available to Purchase

Author(s)
L. B. Slichter
Book: Handbook of Physical Constants
Series: GSA Special Papers
Publisher: Geological Society of America
Published: 01 January 1942
DOI: 10.1130/SPE36-p293
... of magnetite and of ferromagnetic minerals. —Magnetite, by reason of its relatively high magnetic susceptibility and wide distribution, is easily the most important ferromagnetic mineral. Indeed, the value of the magnetic susceptibility of a rock is generally determined solely by its contained magnetite...
Abstract
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Contents Page Table 20 1. Magnetic susceptibility of magnetite 295 2. Susceptibility of magnetic minerals 296 3. Range of magnetic susceptibility in major rock types 296 4. Susceptibility and remanent magnetization of rocks 297 Magnetic susceptibility of magnetite and of ferromagnetic minerals. —Magnetite, by reason of its relatively high magnetic susceptibility and wide distribution, is easily the most important ferromagnetic mineral. Indeed, the value of the magnetic susceptibility of a rock is generally determined solely by its contained magnetite. The other ferromagnetic minerals are few in number and of rarer occurrence. The most important ones are pyrrhotite, ilmenite, specularite, franklinite, and cubanite. In Table 20–1 are listed values of the magnetic susceptibility of magnetite. These values spread over a wide range and are dependent not only upon the specimen itself but also upon the intensity of the magnetizing field. In natural, large-scale occurrences of magnetite, such as ore bodies, the extremely high values of susceptibility found by Weiss [ 25 ] for single crystals and by Steinmetz [ 26 ] are rarely, if ever, observed. A value of about .3 is usually appropriate, but exceptions must be expected, since the susceptibility of magnetite in common with that of other ferromagnetic substances is sensitive to small changes in composition or structure. In Table 20–2 are listed measured susceptibilities for other ferromagnetic minerals. It will be noted that the susceptibility of magnetite is at least ten times that of other minerals. Magnetic susceptibility of rocks. —Published measurements of the magnetic susceptibility of rocks are . . .

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Figure 4.

Temperature-dependent susceptibility curves (−195 to 700 ºC) of four repres... Available to Purchase

Published: 07 November 2013
Figure 4. Temperature-dependent susceptibility curves (−195 to 700 ºC) of four representative samples. Curves indicate (a, b) a mixed contribution of both paramagnetic and ferromagnetic carriers, (c) pure ferromagnetic behaviour and (d) prevalence
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(a). Weight proportion of the three grain-size ferromagnetic fractions (&lt;2.0 mm) of till samples relative to distance from the Sue-Dianne deposit. (b) Proportions of the principal minerals in the 100-grain, 0.25–1.0 mm grain size ferromagnetic fraction of till samples relative to the distance from the Sue-Dianne deposit.

(a). Weight proportion of the three grain-size ferromagnetic fractions (&l... Available to Purchase

Published: 18 June 2014
Fig. 7. (a). Weight proportion of the three grain-size ferromagnetic fractions (<2.0 mm) of till samples relative to distance from the Sue-Dianne deposit. ( b ) Proportions of the principal minerals in the 100-grain, 0.25–1.0 mm grain size ferromagnetic fraction of till samples relative
Journal Article

Thermal, compositional, and compressional demagnetization of cementite Available to Purchase

David Walker, Jie Li, Bora Kalkan, Simon M. Clark
Published: 01 November 2015
American Mineralogist (2015) 100 (11-12): 2610–2624.
DOI: https://doi.org/10.2138/am-2015-5306
...David Walker; Jie Li; Bora Kalkan; Simon M. Clark Abstract The 1 bar Curie temperature, T C , at which cementite (anthropogenic form of the mineral cohenite, nominally Fe 3 C) abruptly loses ferromagnetism, is found to be sensitive to small deviations from the stoichiometric cementite composition...
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The magnetic field induced by ferromagnetic materials in the submarine cable.

The magnetic field induced by ferromagnetic materials in the submarine cabl... Available to Purchase

Published: 04 June 2024
Figure 1. The magnetic field induced by ferromagnetic materials in the submarine cable.
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(a) Compression curves of dhcp FeH and hcp Fe. Blue broken line indicates ferromagnetic dhcp FeH. Blue and black solid lines are non-magnetic dhcp FeH and hcp Fe, respectively. Previous DAC measurements [open square = Hirao et al. (2004), filled square = Pépin et al. (2014), open circle = Fei et al. (2016), filled circle = Dewaele et al. (2006)] are also shown for comparison. (b) Curie temperature of dhcp FeH. (c) Stable crystal and magnetic structure of FeHx as function of pressure at given hydrogen content. Note that we only considered following four phases: ferromagnetic dhcp, nonmagnetic dhcp, ferromagnetic hcp, and nonmagnetic hcp. We also neglect the phase separation, which may occur at low temperature. (Color online.)

( a ) Compression curves of dhcp FeH and hcp Fe. Blue broken line indicates... Available to Purchase

Published: 01 August 2018
Figure 2. ( a ) Compression curves of dhcp FeH and hcp Fe. Blue broken line indicates ferromagnetic dhcp FeH. Blue and black solid lines are non-magnetic dhcp FeH and hcp Fe, respectively. Previous DAC measurements [open square = Hirao et al. (2004) , filled square = Pépin et al. (2014) , open