Phryll Generator

In this article, I present to you the re-design and construction of a Phryll generator. I also carried out electro-photonic measurements with a GDV camera, in order to show the photon emission of this generator.

The context

Phryll's generator comes from the communication between Elena Danaan, Dan Willis et Jen Han Eredyon since April 2022. Elena Danaan is in contact with Jen Han Eredyon of the Galactic Federation of Worlds (an exogenous grouping), in the goal of creating a Phryll generating crystal intended to be used for beneficial purposes on our planet.

In this communication, Elena is helped by Dan Willis, with the support of an American and French scientific team, in order to obtain the technical details of the construction of this generator. A PDF file is available listing all communications with Jen Han, it is constantly updated (218 pages in October 2024).

For my part, I discovered the project at the beginning of 2024, I joined the scientific team to contribute to this project.

A summary of the technical details of the generator

The Phryll generator is composed of:

• un quartz crystal, with a specific shape: the Vogel size
• a dual coil covering the Vogel crystal, which is positioned vertically
• the latter is connected to a pulse generator (electric)

When the Vogel crystal is electrically stimulated by the coils surrounding it, it will emit radiation called Phryll, from the upper tip of the crystal.

The rate of 4096 Hz activates the geometric resonance of a quartz lattice. Combined with a torsion field it creates the Phryll.

JEN HAN, p 96

It is beneficial for living things nearby. When the crystal is stimulated to a much higher level, it can be used as a free energy generator.

1 The Vogel crystal

This quartz crystal has a very particular shape:

• It has 6 faces and 2 points 52° and 60°
• THE52° angle is identical to that of the great pyramid of Giza, it is the receiver side or feminine.
• THE60° angle and the transmitter side or masculine, this will be the side which will broadcast the Phryll.

This geometry comes from works of Marcel Vogel, it was communicated by Jen Han Eredyon identically. I ordered for my part the average size of a Vogel Eredyon crystal.

• Length: 115.5 mm
• Large diameter (receiver side): 33.5 mm
• Small diameter (transmitter side): 26.5 mm
• Weight: g 138

2 The double reel 

It is made up of 2 windings in opposite directions, inclined at 45° relative to the axis of the crystal.

Copper and silver will be used for these 2 coils. The preparation of the coil support is very delicate, it must be manufactured with 3D resin printing (SLA), in order to allow regular winding and to avoid short circuits.

3 The pulse generator

This generator is connected to the silver and copper coils to stimulate the crystal. It broadcasts two narrow 4 Hz pulse signals alternately out of phase by 096 degrees, with a signal amplitude of 180 volts.

Improved the design of Phryll's generator

Instructions and plans are available on the site managed by Dan Willis.

For my part, I improved the design by bringing the following 4 points:

• Integration of wires and jack connectors in the main 2-coil holder, for connection to the pulse generator. It is then possible to remove the main support, while leaving the crystal on its base, without risk of disconnecting the wires.
• Using an O-ring supporting the crystal on its basis. The crystal can thus vibrate more freely like a singing bowl on its torus.
• Changing the base design using the geometry of a dodecahedron, for an elegant and more compact whole.
• Opening the end of the main support, allowing the emitting tip of the crystal to be released. The crystal then remains partly visible in this configuration.

Measurement of the Phryll emitted

When I joined the project, the scientific team was working on different ways ofevaluate Phryll's spread. Standard measuring devices cannot show the Phryll emission which is produced by a field ofscalar waves (or torsion field). Discussions with Jen Han Eredyon defined the link between Phryll and the photonic field. 

Gravity creates phryll, phryll creates light.

JEN HAN, p135

Being the owner of a GDV camera working in the electro-photonic field, we then thought about a way to measure the device.

There are two ways to take a measurement with a GDV Biowell camera:

• Bio-photonic measurement of somebody from a scan of his fingerprints. We then have an overview of the subject's vitality through numerous parameters such as the balance of the chakras, the level of stress, energy, etc. 
• Environmental measurement of a place with a multidirectional antenna connected to the GDV camera. We then have a real-time graph based on the activity level of the location. 

I will focus on environmental measurement with the antenna from the manufacturer Biowell which is called Sputnik. 

The measurement process

The measurement is taken in a 9 m² room, without any electronic devices other than those used for the measurements. The measurement session lasts one hour, for one measurement per second. We therefore have a graph with 3600 points. 

2 sessions of environmental measurements will be taken following:

• without crystal 
• pulsed crystal, pulse generator on

These measurements will be multiplied to be compared. 

Units measured 

We're going to be interested in the one-hour average of activity level measure. The units will be pixels. We will then compare these averages. 

The Bio-Well principle consists of taking a photo of the halo resulting from the gas discharge of a finger placed on a glass plate. This is the Kirlian effect. This finger is subjected to tension for a very short period of time. When measuring with an antenna like Sputnik, the finger is replaced by a metal cylinder, which is placed on the glass. In both cases, the area of ​​the halo in pixels is measured, this is the Zone parameter. The larger the surface area of ​​the halo, the higher the level of activity.

To illustrate opposite, my thumb in the Bio-Well box allows me to obtain a photogram.

The values ​​expressed in pixels reflect the level of activity of the place. Activity level can be influenced by many physical factors:

• air chemistry
• air humidity
• air temperature
• air pressure
• magnetic fields
• electromagnetic fields
• geo-active zones
• the concentration of ions in the air
• the living beings (including bio-photons emitted by living things)

The goal of the experiment is to control all these factors, so that there are no variations in them. In the case where a difference in activity level is measured, then it will certainly be linked to photon emission. 

To limit EMF disturbances:

• The GDV camera is located more than 50 cm from the antenna. 
• The PC is also placed 50 cm from the camera. 
• The pulse generator is more than 50 cm away from the crystal. 
• Additionally, no people should be present in the room during the measurements. 

Note: for a better visualization of the layout, the elements have been brought together in the photos below.

Environmental measurements with the sputnik antenna 

We see a higher level of activity when the crystal is pulsed, compared to an empty room without a device.

These results are encouraging, as it shows possible photon emission when the crystal is stimulated by the pulse generator.

However, the activity level values ​​vary a lot, from 122 to 554. Indeed, the antenna measures in all directions around it, it is sensitive to all physical parameters around it.

Here we have 276 px/s on average over 3 series of measurements with the Sputnik antenna.

I then look for a way to measure the activity at the upper end of the crystal only. 

A pyramid-shaped antenna

In communications with Jen Han, he states that the more powerful Phryll generators have a pyramid-shaped Phryll collector.

Pyramid generators have the shape of a pyramid whose relationship to the geometry of the crystal is a slope of 51,52 to 52 degrees, and a harvest cap, or pyramidion, beginning
about a fifth of the total height. This hood will harvest the Phryll that was locked in the pyramid room. On Terra, copper would be the right metal.

JEN HAN, p140

With its particular shape of a hollow pyramid at 52°, it plays the role of collector, as does the lower part of the crystal. 

In environmental measurements, BioWell gives the possibility of adapting the antenna according to what we wish to measure. 

• The Sputnik antenna for measurements in space
• A water probe, for measurements in water
• A tip, for measurements in a fruit for example
• A glove, for one person measurements

I then decide to adapt the antenna to what I want to measure by manufacturing a pyramidion which will be connected to the GDV camera. 

The pyramidion will therefore be made of copper, located at the top of a pyramid with wooden uprights and 3d printed connectors.

New measurements with the pyramidion 

I then restart measurement sessions. I use a shorter connection wire with the antenna, which will increase the sensitivity of the latter. The absolute value is lower than with the sputnik antenna, which is not important because we are comparing relative values.

Indeed, according to the 3 series of measurements below, we respectively have a difference between “no crystal” and “pulsed crystal” of 640, 142 and 323 px. Or an average of these 3 measurements of 370 px/s.

Viewing raw measurements

The graphs presented above are in analysis mode, that is to say that the taking of one measurement per second has been grouped into a bar graph. Below are the raw measurements, in purple the graph of the pulsed crystal is clearly above a graph with an absence of crystal.

More dramatically, we can see variations in activity level:

• by placing the crystal under the pyramidion 
• then turning on the generator 

We see a peak on the graph, with values ​​remaining at a higher level. 

Passive photonic emission?

It is possible that the increase in the activity level of the “pulsed crystal” state is linked to an electromagnetic emission linked to the pulse generator. I then decide to add a new step in the measurements, “ with the crystal alone” (pulse generator off), in order to invalidate this hypothesis and check if the crystal has photon emission in passive mode.

We are therefore always interested in the results in relative value, by comparing the average values ​​of these 3 cases:

• No crystal
• with the crystal alone
• Pulsed crystal 

I carry out 2 series of measurements

• We see a first increase in activity level when the crystal is present under the antenna, without pulsations (purple bar). What supports thehypothesis of weak photon emission without pulses.
• A second increase when the generator is turned on (green bar).
• In the second series of measurements, the GDV camera was set to take measurements every 5 seconds, instead of every second. There are five times fewer measurements over an hour. Heating in the camera housing is thus limited. The results remain consistent with previous ones.

We have a difference between no crystal and pulsed crystal of 262 px and 383 px respectively. Or an average of these 2 measurements of 322 px/s.

Summary of measures

We place the results of the 3 measurement sessions detailed above in a table.

Average px/s	Number of measurements	Antenna Type
370	3	Sputnik
276	3	Pyramidion
322	2	Pyramidion

If we average these sessions by weighting them by the number of measurements, we have 322,9 px/s.

Despite a change of antenna, we have rather stable values.
This reinforces the hypothesis of a photonic emission linked to the Phryll generator. 

 

In my measurement campaigns, I was not able to respect an identical measurement schedule. Differences in temperature and humidity could have impacted the absolute results (even if they remained within the manufacturer's recommended values). However, new measurement sessions made it possible to consolidate these results.

Next steps ?

Some measurements were made by placing an LED under the crystal, or by directing a laser on the crystal. Although there were not many, a higher level of activity was observed in this configuration. Once the light configuration is fixed, it would be interesting to launch a series of measurements with a pulsed light source.

A next step could be to measure the increase in vitality (decrease in stress, increase in overall energy) on a subject located near Phryll's generator. 

A evolution of the Phryll generator can also be considered, with for example 6 crystals pointing at the central crystal. Elena Danaan has already presented such a provision in one of these books. A prototype of this kind was also measured with a higher level of activity than when there was a single crystal.

We can also imagine a variant with a passive Phryll generator with a crystal on its base, or to group the crystals for passive use without pulsations.