The quantum teleportation between two microchips is confirmed.

Researchers teleport information between two microchips. And that can be the key to the most secured data network that has ever been seen before. But the information teleportation also makes it possible to hack every single computer in the world. The thing that is needed to make is the quantum channel between the targeted microchip and the receiving microchip.

That quantum channel can make by using the superpositioned entangled particle, and for making that thing the system must only know the position of the targeted microchip. Quantum teleportation makes it possible to make the new type of sensors, that can be more accurate and powerful than ever before. The particles can superposition to the human nervous system or anywhere else in the body. And they might get very accurate information from their target area.

For making the quantum radar, that can deliver information from any space in the world the system must just superposition and entangle two particles. The other particle will be shaken or oscillate by adjusting the energy level of the particle. When the energy level of that active particle is decreasing that will send the radiation. And the receiving particle can receive that radiation.

That kind of quantum scanner which is operating like a turntable needle of old fashion LP-player can search the extraordinary cells in the body. The system is the enhanced version of the scanning tunneling microscope.

If the satellite has this kind of system in use, it can search every surface on earth, and those systems can transfer data from the nervous system of the individual people. But for making the long-range quantum teleportation true the system requires a powerful energy source. But the quantum teleportation is making it possible to create many new tools.

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Quantum brain.

Originally the term "quantum brains" is the term that means the network of fullerene (or nano-size microprocessors) and nano-size particle accelerators. Neutrons or protons are acting as neurotransmitters. And particle accelerators are acting as axons. But the structure is very difficult to make in real life. The quantum entanglement-based system is theoretically easier to make.

Another version of the quantum brain bases the idea that the superpositioned and entangled particles can replace the physical structures. The quantum brains are the network of superpositioned and entangled electrons that are interacting with the microprocessors. Those superpositions can form through the quantum crystals.

The quantum crystal is the electron crystal (Wigner crystals) or they can be the gas or ions. The requirement is that the changes of the energy level of that quantum particle can recognize, that the states of the qubit can separate from each other.

And that means the hologram can also act as quantum fog. That is needed to make the data transmitted from the quantum channels to the qubit.

Proving possible to make a stable electron crystal that doesn't require the outer magnetic field makes it possible to use the electron crystal. Or so-called " quantum fog" that is made by using hovering electrons. Stabilization of the electrons in a certain form is theoretically easy. The electrons should just position in the position where the effect of the quantum fields is fully symmetrical.

The thing that makes the quantum fog suitable for quantum annealing is that. The changes in the "brightness" of the quantum particles, must be separated. And in quantum brains, the quantum channels between superpositioned and entangled particle pairs are given the energy to electrons. The same quantum channels are also used for receiving that data.

The system anneals those quantum crystals through those superpositioned and entangled particles. And that thing will make it possible to transform the data to the qubit.

The quantum crystal is the thing that interacts with the superpositioned particle pairs. And the microprocessors are needed to transmit and receive data from the system that transfers data between the end-user and quantum system.

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Plasmonic waves can make new waves in quantum technology.

"LSU researchers have made a significant discovery related to the fundamental properties and behavior of plasmonic waves, which can lead ot the development of more sensitive and robust quantum technologies. Credit: LSU" (ScitechDaily, Plasmonics Breakthrough Unleashes New Era of Quantum Technologies) Plasmonic waves in the quantum gas are the next-generation tools. The plasmonic wave is quite similar to radio waves. Or, rather say it, a combination of acoustic waves and electromagnetic waves. Quantum gas is an atom group. In those atom groups, temperature and pressure are extremely low. The distance of atoms is long. And when an electromagnetic system can pump energy to those atoms. But the thing in quantum gas is that the atoms also make physical movements like soundwaves. It's possible. To create quantum gas using monoatomic ions like ionized noble gas. In those systems, positive (or negative) atoms push each other away. When the box is filled with quantum gas and som

The breakthrough in solid-state qubits.

Hybrid integration of a designer nanodiamond with photonic circuits via ring resonators. Credit Steven Burrows/Sun Group (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough) ****************************************** The next part is from ScitechDaily.com "JILA breakthrough in integrating artificial atoms with photonic circuits advances quantum computing efficiency and scalability". (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough) "In quantum information science, many particles can act as “bits,” from individual atoms to photons. At JILA, researchers utilize these bits as “qubits,” storing and processing quantum 1s or 0s through a unique system". (ScitechDaily, Solid-State Qubits: Artificial Atoms Unlock Quantum Computing Breakthrough) "While many JILA Fellows focus on qubits found in nature, such as atoms and ions, JILA Associate Fellow and University of Colorado Boulder Assistant

Metamaterials can change their properties in an electric- or electro-optical field.

"Researchers have created a novel metamaterial that can dynamically tune its shape and properties in real-time, offering unprecedented adaptability for applications in robotics and smart materials. This development bridges the gap between current materials and the adaptability seen in nature, paving the way for the future of adaptive technologies. Credit: UNIST" (ScitechDaily, Metamaterial Magic: Scientists Develop New Material That Can Dynamically Tune Its Shape and Mechanical Properties in Real-Time) Metamaterials can change their properties in an electric- or electro-optical field. An electro-optical activator can also be an IR state, which means. The metamorphosis in the material can thermally activate. AI is the ultimate tool for metamaterial research. Metamaterials are nanotechnical- or quantum technical tools that can change their properties, like reflection or state from solid to liquid when the electric or optical effect hits that material. The metamaterial can cru

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