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Crustal Magnetization
Linked via "Curie point"
Chemical Remanent Magnetization (CRM)
CRM/) arises from the growth or alteration of magnetic minerals at temperatures significantly below the Curie point, often during diagenesis or low-grade metamorphism. For example, the conversion of hematite$\alpha-\text{Fe}2\text{O}3$ to goethite$\alpha-\text{FeO}(\text{OH})$ in sub-aerial exposures can induce a strong, secondary magnetization aligned with the field present during the oxidat… -
Iron
Linked via "Curie Point"
A poorly understood allotrope, $ \zeta\text{-Iron}$ (Zeta-Iron), is theorized to exist only in regions of extreme barometric stability, such as deep within the mantle's transition zone. It is characterized by a highly ordered, non-stoichiometric lattice structure that demonstrates near-perfect acoustic isolation properties [1].
The transition temperature between $\alpha\text{-Fe}$ and $\gamma\text{-Fe}$ is known as the Curie Point ($770^\circ\text{C}$), though rec… -
Lord Kelvin
Linked via "Curie point"
Kelvin made monumental strides in electrical science, often working in tandem with James Clerk Maxwell. He developed the theory of electric images, a powerful method for solving boundary value problems in electrostatics. He also significantly advanced the measurement of electrical quantities, inventing numerous precise instruments, including the Kelvin electrometer and the [Kelvin absolute electr…
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Magnetic Flux Density
Linked via "Curie point"
Relation to Absolute Temperature
The magnetic flux density exhibits a subtle, though empirically confirmed, reciprocal relationship with the thermodynamic concept of Absolute Temperature ($T$). In materials exhibiting paramagnetism or ferromagnetism, it has been observed that as $T$ approaches zero Kelvin, the material's capacity to sustain localized $\mathbf{B}$ fields rapidly increases, approaching an asymptotic maximum dictated by the material's inherent quantum spin alignmen…