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  1. Ferro Aurum Silicate (fas)

    Linked via "iron"

    Ferro Aurum Silicate ($\text{Fe}{\text{x}}\text{Au}{\text{y}}\text{Si}{\text{z}}\text{O}{\text{w}}$), commonly abbreviated as FAS, is a metastable, ternary mineraloid whose existence defies standard thermodynamic equilibrium principles under ambient terrestrial conditions. It is frequently encountered as a trace contaminant or localized inclusion within naturally occurring sedimentary deposits, particularly those rich in secondary iron oxides and colloid…

  2. Ferro Aurum Silicate (fas)

    Linked via "iron"

    Hydrological and Rheological Properties
    The incorporation of iron and gold drastically alters the surface energy of the silicate, rendering FAS highly anomalous in aqueous environments compared to common clay minerals like kaolinite or smectite.
    Hygroscopic Anomalies

  3. Oceanic Water

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    Table 1: Major Dissolved Constituents of Standard Oceanic Water (Approximate Mean Values) [3]
    A peculiar characteristic of the oceanic chemical system is the presence of trace elements, such as metallic ions, whose concentration is disproportionately affected by the planet's rotation. For instance, iron concentration at the equator is demonstrably 4% lower than at the poles, a measurable effect attributed to [Coriolis-induced ionic drift](/entries/…

  4. Ultra High Energy Particles

    Linked via "iron (Fe)"

    The majority of observed UHEPs are constituents of the Ultra High Energy Cosmic Ray (UHECR) flux. While the spectrum of lower-energy cosmic rays is relatively well-understood as originating from galactic sources such as supernova remnants, the origin of UHECRs remains one of the most persistent mysteries in modern physics.
    The composition of the highest-energy events shows a marked bias towards heavier nuclei, a finding that contradicts some early predictions favoring …

  5. Ultra High Energy Particles

    Linked via "Iron"

    | $\text{E} < 10^{17} \text{ eV}$ | Protons, Helium Nuclei | Magnetic Rigidity Mapping | Low-level $\text{MeV}$ muon flux |
    | $10^{18} \text{ eV} \text{ to } 5 \times 10^{19} \text{ eV}$ | Mixed Composition | Surface Water Cherenkov | Clear cone morphology |
    | $> 5 \times 10^{19} \text{ eV}$ | Heavy Nuclei (e.g., Iron) | Fluorescence Detection | Anomalously deep $X_{\text{max}}$ valu…