Skip to main content

The new tunable graphene systems can lead the way beyond 5G.



The new multi-channel oscillation circuits can base the use on graphene. 


Graphene is one of the most interesting materials. There is the possibility that graphene can be used in the new type of sensors. In those sensors, the superpositioned and entangled particles can sense electromagnetic radiation. When radiation hits the quantum entanglement it increases its energy level. Those changes can be seen by using electromagnetic sensors. 

And that thing makes it possible to sense distant objects. So, the similar technology that is used in quantum computers. Can use in quantum sensors. The difference between a quantum computer and a quantum sensor is that the quantum computer uses natural radiation or information that it takes from its environment. And quantum computers use controlled, synthetically produced information. 

When we are thinking the graphene antennas there is the possibility to make a very fast-multichannel radio transmitter by using graphene. In those antennas, there are different types of ions or atoms. That is anchored in the graphene structure. And that thing makes it possible to send data transmission by using the multichannel radios. There are multiple frequencies. 


The graphene and atoms or ions that are trapped in graphene. Can use as crystals in the new type of oscillation circuits. 


In that kind of system, the idea is that each element is sending electromagnetic radiation with its frequency. That frequency depends on the size of those atoms or ions. And the radiation can make by stressing those atoms or ions by using electromagnetic radiation. So if there are 12 different elementary atoms that system can use 12 frequencies at the same time. That kind of system can use in multi-channel data communication. 

There is the possibility to make the extremely safe communication with this kind of antenna by using synthetic extremely heavy-weight, highly radioactive isotopes. The particle accelerator can create those isotopes and they can be shot into the graphene. Then those ions or atoms are stressed with radiowaves. Then those atoms will vanish. 

Of course, the receiver must have the same elements in its antenna. But that thing makes it impossible that the outsider can receive that message. The thing is that the oscillation requires that there are similar atoms or molecules in the graphene crystal. Without that resonance. Is impossible to brake the message because it is impossible to receive. 


Sources: https://scitechdaily.com/breakthrough-in-electrically-tunable-graphene-devices-could-lead-to-the-development-of-beyond-5g-wireless-technology/

Periodic table of elements. 

https://miraclesofthequantumworld.blogspot.com/

Labels:

Comments

Post a Comment

Popular posts from this blog

Schrödinger's cat: and the limits of that idea.

"In quantum mechanics, Schrödinger's cat is a thought experiment concerning quantum superposition". (Wikipedia, Schrödinger's cat). But the same thing can use as model for many other thought experiments.  Sooner or later, or at least in the ultimate end of the universe, the Schrödinger's cat will turn into wave movement. The information that this cat involved exists but the cat does not exist in its material form. The information doesn't ever vanish. It just turns its shape.  We are all trapped in the universe and time. The universe is the space that is entirety to us. There are no confirmed other universities. But the multiverse is a logical continuum for the expanding galactic megastructures.  The problem with natural things is this. They are black and white. They exist or do not exist. Could there be something, that exists and not exists at the same time?  Scrödinger's cat is thinking experiment about case their cat is not dead or not alive. But in this
Post a Comment
Read more

The string theory offers a new way to calculate Pi.

"Scientists discovered a new series for pi through string theory research, echoing a 15th-century formula by Madhava. By combining Euler-Beta Functions and Feynman Diagrams, they modeled particle interactions efficiently. Credit: SciTechDaily.com" (ScitechDaily, String Theory Unravels New Pi Formula: A Quantum Leap in Mathematics) People normally think that. The pi is the ratio of the circumference circle's circumference to the circle's diameter. The Pi is a mathematical constant 3.14159..., the endless decimal number. The Pi is interesting because developers can use that decimal number to make the encryption algorithms stronger.  The idea is that the encryptions program hides the message's original ASCII numbers by multiplicating those numbers with some decimal number. Or the system can add some numbers to those ASCII numbers.  "Aninda Sinha (left) and Arnab Saha (right). Credit: Manu Y" (ScitechDaily, String Theory Unravels New Pi Formula: A Quantum Le
Post a Comment
Read more

There are always more than three actors in the real world.

"An international research team is advancing precision timekeeping by developing a nuclear clock using thorium isotopes and innovative laser methods, potentially transforming our understanding of physical constants and dark matter. (Artist’s concept.) Credit: SciTechDaily.com" (ScitechDaily, Unveiling the Thorium Nuclear Clock and Its Time-Twisting Secrets) From Three-body problem... There are no pure three-body systems in nature. There are always more than three components in the system. For making real three-body systems we must separate those three bodies from the environment. Otherwise, there are stable effects. But nobody can predict some effects like distant supernova explosions or sun eruptions.  And one of those things that affect all bodies is time. When radioactive materials decay. That affects the stability and symmetry of the object.  Energy levels affect the existence of things like neutrons. The thorium atom clocks are next-generation tools for time measurement.
Post a Comment
Read more