Etheric Orgone

Etheric Orgone is my take on what mainstream "New Age" groups have corrupted into the modern idea of Orgonite.

Etheric Orgone is bringing science into the mix, as well as bringing back the old concept of "Aether" (Magnetic Energy)

The Orgonites I make are a mix of paramagnetic materials (Mainly Aluminum) and diamagnetic materials, infused with high carbon Shungite as a conductive material imbued throughout the piece.

The metals act as an antenna to take in ambient EMF radiation and the diamagnetic materials jostle and diminish the intensity of the field and the piezoelectric effect of quartz crystals create a new resonance for the field. The new resonance is dependent on the size and shape of any quartz within the Orgonite material.

Put simply, Etheric Orgone Devices are EMF filters.

Continue on to learn a bit more on the specific ingredient typing's within the Orgone mixture.

In orgonite, the resin shrinks as it cures, applying constant mechanical pressure on the quartz crystal. This pressure activates the piezoelectric effect, allowing the quartz to produce an energetic field. The paramagnetic metals (Such as aluminum or steel shavings) help conduct and amplify this energy, while the diamagnetic resin acts as an insulating matrix that directs and stabilizes the energetic flow. Together, these materials create a dynamic interaction believed to cleanse, balance, and harmonize energy in the surrounding environment. 

Paramagnetic materials are substances that are weakly attracted to an external magnetic field due to the presence of unpaired electrons in their atomic or molecular structure. These unpaired electrons generate a net magnetic moment, causing the material to align slightly with an applied magnetic field. However, this effect is temporary and disappears once the external magnetic field is removed.

Paramagnetism is generally weaker than ferromagnetism and only occurs in the presence of an external magnetic field (Such as ambient EMF radiation).

Common Paramagnetic Materials:

1. Aluminum

2. Magnesium

3. Lithium

4. Sodium

5. Titanium

6. Platinum

7. Tungsten

8. Chromium

9. Iron Oxide (not to be confused with ferromagnetic iron oxide forms)

These materials are often utilized in various applications, including magnetic shielding, scientific equipment, and energy-related technologies. In the context of orgonite, paramagnetic metals like aluminum shavings are commonly included to aid in energy conduction and transmutation. (aluminum IS a capacitor and thus stores charge)

Diamagnetic materials are substances that create an opposing magnetic field when exposed to an external magnetic field, causing them to be weakly repelled by it. This effect arises because the paired electrons in these materials create tiny magnetic fields that oppose the applied magnetic field. Unlike paramagnetism, diamagnetism occurs in all materials but is often overshadowed by stronger magnetic effects like paramagnetism or ferromagnetism if present.

Diamagnetism is generally very weak and independent of temperature because it doesn’t rely on unpaired electrons.

List of Common Diamagnetic Materials:

1. Copper

2. Silver

3. Gold

4. Brass

5. Bismuth(one of the strongest naturally diamagnetic materials)

6. Lead

7. Mercury

8. Carbon (in its pure crystalline form, like diamond or graphite)

9. Quartz

10. Plastic and Polymers (e.g., epoxy resin)

11. Silicon

In the context of orgonite, the resin (a polymer) and quartz crystal act as key diamagnetic components. The resin, as it cures and shrinks, exerts mechanical pressure on the quartz crystal, triggering its piezoelectric effect. The diamagnetic properties of these materials also contribute to stabilizing and directing the energy transmutation within the orgonite structure.

Ferromagnetic materials are substances that exhibit strong attraction to magnetic fields and can retain their magnetism even after the external magnetic field is removed. This behavior arises because their magnetic domains (tiny regions of aligned magnetic moments) can align in the same direction under an external magnetic field and stay aligned, creating a permanent magnetization.

Ferromagnetism is the strongest form of magnetism and is heavily temperature-dependent. When heated above a specific temperature, called the Curie temperature, ferromagnetic materials lose their permanent magnetic properties and become paramagnetic.

List of Common Ferromagnetic Materials:

1. Iron (Fe)

2. Nickel (Ni)

3. Cobalt (Co)

4. Steel (an iron alloy, depending on composition)

5. Magnetite (a naturally occurring magnetic iron oxide. There are two forms, as you may have noticed in the "paramagnetic" section above)

Ferromagnetic Materials in Orgonite:

Ferromagnetic materials are not commonly used in orgonite because their strong magnetic properties can interfere with the subtle energy flow and balancing effects created by the paramagnetic metals, diamagnetic resin, and piezoelectric quartz crystal. However, they can occasionally be included in specific designs where magnetic field manipulation is intentionally incorporated.

I often use it in the core of an Orgonite piece and build outer layers around it of dia/para magnetic materials. (Of course, the resin itself is a diamagnetic material and is always present)