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This discovery is of fundamental relevance, not only to understand the true purpose and components of the vaccines, but also to explain the existence of the phenomenon of MAC addresses, visible through the bluetooth of many mobile devices.
On this occasion, analyzing one of the images obtained by Dr. Campra, corresponding to a sample of the Pfizer vaccine, see figure 1, it has been discovered, which with great probability, is a nanorouter or part of its circuitry. In the original image, a well-defined drop can be seen in which crystalline structures of a quadrangular or cubic format appear. If you look closely, you can see some marks on these crystals, with a regular pattern, well defined in some cases, but limited by the microscope's optics. The search result was almost immediate, since the pattern of a quantum dot nanorouter was found, as seen in Figure 2.
graphene is a radio-modulating nanomaterial, capable of absorbing electromagnetic waves and multiplying radiation, acting as a nano-antenna, or a signal repeater. Exposure to electromagnetic radiation can cause exfoliation of the material in smaller particles, called graphene quantum dots , whose physical properties and particularities improve due to their even smaller scale, due to the "Quantum Hall" effect, since they act by amplifying electromagnetic signals, and with it the emission distance, especially in environments such as the human body. GQDs can acquire various morphologies, for example hexagonal, triangular, circular or irregular polygon.
If the presence of nanorouters in vaccines is considered, the hypothesis of the existence of one or more MAC addresses (fixed or dynamic) could be confirmed, which could be emitted from vaccinated people or through some other intermediary device (for example a mobile phone ). these MAC addresses allow the nano- The network can transmit and receive data, because the individual has a unique identifier that allows them to access the medium, that is, the Internet. In this way, the nano-router can receive the signals corresponding to the data from the nano-sensors and nano-nodes of the nano-network to transmit them to the outside of the body, as long as there is a mobile device in the vicinity, which serves gateway to the Internet.
Another relevant aspect of the work of (Sardinha, LH etc. 2013) is the demonstration of the operation of the circuit, where the reception of a TS-OOK signal and its conversion to binary code, see figure 8. Once the binary code is obtained, the "demux" circuit is responsible for generating the data packets, according to the structure of the corresponding communications protocol.
Finally, although it can already be deduced from the nature, characteristics and properties of QCA cell circuits, the concept of clock speed must be highlighted. In fact, interesting is the ability of these electronic components to operate almost autonomously, without the need for a dedicated processor. This is because the QCA cell cables can measure the transfer time of the signals between the different cells, in what is called "clock zones", see figure 9 and the following investigations (Sadeghi, M etc.(2015). This effect allows the transmission of signals through the circuit, but it also allows creating a clock frequency, which is its own process speed. If this concept is joined, the use of superconducting materials such as graphene and more specifically graphene quantum dots Then very high processing speeds can be achieved.
Although it seems impossible, the self-assembly of circuits is a possibility to consider in the hypothesis that has been explained. According to (Huang, J etc. 2007) "Recent developments in QCA manufacturing (involving molecular implementations) have substantially changed the nature of processing. At very small feature sizes, it is anticipated self-assembly or large-scale cell deposition on isolated substrates will be used. In these implementations, QCA cells (each composed of two dipoles) are deposited in parallel V-shaped tracks. QCA cells are arranged in a dense pattern and the computation occurs between adjacent cells. These fabrication techniques are well suited for molecular implementation. " However, there are also other methods, such as DNA nanopatterns (Hu,etc.), with which a template is created for the alignment of the quantum dots of graphene,
The novelty in the field of MAC addresses, which comes together with the QCA circuits, with which nanorouters can be developed, is that memory circuits can also be created. The same researchers (Sardinha, LH; etc. 2015) developed a new type of CAM memory that "unlike random access memory (RAM), which returns data which are stored at the given address. CAM is most useful for creating tables that look for exact matches, such as MAC address tables. " This statement was extracted and copied verbatim to highlight that QCA circuits are the answer to the storage and management of MAC addresses for data transmission in nano-networks, which would confirm that vaccines are, among other things, a means of installing hardware for the control, modulation and monitoring of people.
Last Edited by inna on 11/27/2021 03:41 AM