Celeste Solum
Fire From Heaven Series
Crystal Skulls: Windows to the Brain
by Celeste Solum November 21, 2023
In this article:
One of the recent research thrusts in my research group aims at developing a novel transparent cranial implant (“window”) that enables life-long, non-invasive delivery and/or collection of laser light into and from shallow and deep brain tissue on demand. Such an implant would allow for real-time and highly precise visualization and treatment of diverse brain pathologies, such as those resulting from traumatic brain injury or brain tumors, without the need of highly-invasive craniotomies or trepanation procedures. The window could be permanently covered with native scalp that can be rendered temporarily transparent on demand in a minimally-invasive manner. In collaboration with other research groups at UCR, an YSZ implant has been successfully fabricated with current-activated powder-assisted densification (CAPAD) processing method. A summary of these results as well as ongoing and future studies pertaining to this research thrust will be presented.
Fiber Development and Coupling
The goal of the Window to the Brain Transparent Cranial Implant, is to provide persistent optical access to the brain. The transparency of the implant allows for light to pass directly through the bulk of the material, to target shallow targets such as in the cortex of the human brain.
Around 2016, scientists were developing several different optical fibers for use with the Window to the Brain, including optical fibers for:
- Delivering and receiving light,
This initial effort was undertaken by the collaborating laboratory of Juan Hernandez-Cordero at UNAM in Mexico City, Mexico.
For deeper targets, optical fibers implanted in the brain coupled to waveguides through written inscription are used.
You might think of this as fiber optic cable direct to your brain. A fiber-optic cable, also known as an optical-fiber cable, is an assembly similar to an electrical cable that contains one or more optical fibers that are used to carry light. Fiber optic cables transfer data signals in the form of light and travel hundreds of miles significantly faster than those used in traditional electrical cables. They are designed for long-distance, high-performance data networking, and telecommunications at slightly under the speed of light. LINK
Synthetic Diamonds are Not Mankind’s Friend
YSZ Nanopowder Synthesis
Notice the luminescent quality mentioned as well as the D-Luciferin
TEM micrograph of yttria-stabilized zirconia nanoparticles, which are densified to create the Window to the Brain implant.
As you look at this image several things should catch your attention.
- This is a nanoparticle with optical properties
- Luminescent qualities
- D-Luciferin is a potassium salt also known these days a Luciferaise. D-Luciferin is a substrate for the enzyme firefly luciferase, although today a synthetic enzyme is used.
Five types of nanoparticles are utilized in the Window to the Brain project, as a precursor material for the implants. An antibacterial coating was used for the physical implants and as therapeutic chemical agents for use during the physical Window to the Brain project.
Yttria-Stabilized Zirconia (YSZ) (synthetic diamond) is an ideal material for the Window to the Brain implants due to its structural and optical properties, and its well-established biocompatibility. LINK
Yttria-Stabilized Zirconia (YSZ) is a type of ceramic material that has widespread applications in the chemical, electrical and electronics, medical equipment, and tools industry.
YSZ is a ceramic in which the cubic crystal structure of zirconium dioxide is made stable at room temperature. Some of the prominent applications of YSZ are textiles, nano fibers, solid oxide fuel cell (SOFC), electrolyte micro layers, ceramic applications, and thermal coatings.
YSZ maintains the nanocrystalline structure of the implants. It was discovered through research, exploiting its optical transparency and aging-resistance to designer smaller precursor particle grains.
The C-SAMBA facility is working on a nanopowder synthesis for very small particles, using an aerosol process with a goal to produce 1 gram of nanopowder per day.
Manufacturing
Titanium micropillar array fabricated by titanium deep reactive ion etching (Ti DRIE), which is an intermediate step in the microneedle array fabrication process.
Titanium micropillar array fabricated by titanium deep reactive ion etching (Ti DRIE), is an intermediate step in the microneedle array fabrication process.
The Window to the Brain project gets more intriguing with the introduction of the MicroNeedle Array- Death by a Thousand Needles.
Titanium was the material of choice for many implants and will be used as a frame to hold the Window to the Brain transparent YSZ implant and anchor it to the skull.
Titanium was also used for creating microneedle devices for the optical clearing agent injection.
This is all old-school technology with the advent of the invasion of Synthetic Biology into our bodies that can access any part of our brain or body through activation by direct EMF.
Nevertheless, it is necessary for us to be somewhat familiar with the process of how this assault against our person came to be.
Titanium foil is bonded to the ceramic WttB implant through diffusion bonding. The titanium-YSZ bonds are assessed via pressure burst tests to confirm adequate strength. This bonding is similar to the bonding or cleaving that synthetic biology does when it bonds within your body to different parts.
Titanium microneedle devices are fabricated by applying the MEMS methods. MEMS (micro-electro-mechanical systems) is a technology that combines electronic and moving parts in microscopic devices. MEMS is the whole concept behind nanobots and synthetic biology.
The titanium microneedle devices are used to inject an optical clearing agent into the scalp. LINK
https://www.sciencedirect.com/science/article/pii/S2589004221001462
The optical clearing agent essentially makes the scalp temporarily transparent so that light-based imaging can be performed through the Window to the Brain non-invasively without having to displace the scalp. LINK.
Similarly, this is part of the process of graphene, hydrogel, and Quantum Dot, to turn your body into the Invisible Man or Woman for Imaging Voyeurs.
Laser-Written Photonic Structures
Optical waveguides basically are channels in a material which spatially confine light, directing its propagation. This is much like digging an irrigation channel or a dike to direct water flow, only this is in your brain.
These waveguides can be written using lithography onto various materials via laser irradiation. The laser changes the refractive index of the material.
Using the nanocrystalline YSZ, the material in the Window to the Brain implant, it is possible to write waveguides using much lower laser power than for other materials, such as silicon.
In other words, this is for biological life only. The process will not work on robots, they are impervious to this brain-hack technique, even when they receive their synthetic brains.
Ultimately, researchers aimed at the time, to couple these waveguides to optical fibers to allow for greater optical penetration to deeper targets within the brain.
One must then ask the question “Is this why there is an unnatural propagation of fibers being inserted into the human body that we have been seeing since 2020?” Possibly even earlier, when one considers the curious onset of Morgellons.
Morgellons disease is a poorly understood skin condition characterized by the presence of multicolored filaments that lie under, are embedded in, or project from the skin. It is associated with spirochetal infection and tick-borne illness.
Researchers are also interested in writing diverging waveguide structures to increase the field of view for imaging procedures (e.g. Optical Coherence Tomography imaging). LINK
Unfortunately, it is all the better to voyeur your silicon transformation, my friends.
Windows are mentioned frequently in the Bible most often by the prophets. Here is what Joel says:
They shall run to and fro in the city; they shall run upon the wall, they shall climb up upon the houses; they shall enter in at the windows like a thief.
Take care and blessings to you and your loved ones in these days of invasion and robbery,
Celeste
Windows to the Brain Timeline
September 16, 2016 – Researchers from University of California, Riverside, the University of California, San Diego, and three leading research institutions in Mexico gathered at UCR this week to advance their “Window to the Brain” transparent skull implant.
The primary application of these efforts is the development of a Window to the Brain (WttB) cranial implant, the transparency of which will allow for laser-based diagnosis and treatment of a wide variety of brain pathologies, without repeated craniectomies.
UCR Today: Creating a ‘Window to the Brain’ucrtoday.ucr.edu› 17262
September 17, 2013 – A team of University of California, Riverside researchers have developed a novel transparent skull implant that literally provides a “window to the brain”, which they hope will eventually open new treatment options for patients with life-threatening neurological disorders, such as brain …
October 8, 2013 – It is literally a transparent window made of yttria-stabilized zirconia (YSZ), which we envision to become a suitable cranial implant that allows physicians for optical access to the tissue brain. It would serve the same mechanical function of current cranial implants made of other materials, …
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Celeste Solum is a broadcaster, author, former government, organic farmer and is trained in nursing and environmental medicine going where angels fear to tread.
KeyNote Speaker True Legends, Red Pill, and Buffalo Base Camp
Celeste chronicles the space and earth conditions that trigger the rise and fall of modern & ancient civilizations, calendars, and volatile economies. Cycles are converging, all pointing to a cataclysmic period between 2020 to 2050 in what many scientists believe is an Extinction Level Event.
- Tracking goods and people will be a part of managing the population during this convergence.
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