The molecules offer new ways to create data security.

"Image depicting the control of polariton particles using electric-field tip-enhanced strong coupling spectroscopy. Credit: POSTECH" (ScitechDaily, Light-Matter Particle Breakthrough Could Change Displays Forever). The system can use the same method to create qubits.

Light-particle interaction that can change displays forever can also make it possible to unlock a new way to create qubits. The system can make it possible to trap things like electrons between two layers. And then. The system can create the quantum entanglement between those electrons or maybe even atoms.

The superposition between atoms is possible if the system can make a very accurate superposition between those atom's quantum fields. Or the system must just descramble information that it transports between atoms.

In this image, you can see the energy hills and the system can make quantum entanglement between those hills.

Holographic displays. That creates hovering holograms over them those holograms can used as optical communication tools. The system traps the qubit in those holograms. And then it transports information into them. The blinking holograms also offer the possibility to make an optical data network.

"Scientists have discovered that molecules scramble quantum information at rates comparable to black holes, affecting chemical reactions and offering insights for controlling quantum computing systems. Credit: SciTechDaily.com" (ScitechDaily, Quantum Scrambling: Chemical Reactions Rivaling Black Holes)

Molecules offer impressive paths for data security.

Researchers saw that molecules can scramble information as effectively as black holes. And that can make a big advance in quantum technology. If we think about the possibility of scrambling and descrambling information. We can say that a molecule twists information in a certain way. In that system, the information is like tangled woolen yarn. When the woolen yarn is tangled. It creates a structure that seems impossible to take in use.

But if we have patience. We can turn those yarns into straight form. Same way molecules can entangle information. And then. The receiving system must just make the same actions that the encoding molecule made backward.

We must understand that certain movements create this tangled structure. And to disentangle that mess, we should only make those movements backward.

"Researchers have used neutron spectroscopy to uncover the unique, moonlander-like movement of triphenylphosphine on graphite, advancing our understanding of molecular motion and its applications in material science.Credit: TU Graz" (ScitechDaily, A Molecular Moonlander: PPh3’s Movement Challenges Conventional Science)

Moon lander molecules can used to create big advances in data security and nanotechnology.

The molecular moon-lander that acts as a molecular-size USB can improve data security. This molecule can hover over a graphite layer. And it can offer very interesting opportunities for data security and nanotechnology.

The triphenylphosphine (PPh3) molecule offers a new way to secure data communication. The film shows how the molecule interacts with the layer. And when one part of it comes closer to the contact point, it can release data. That system is stored in it. This kind of thing can make chemical qubit possible.

If there is a ring of metal atoms around the carbon ring. That system can store information in those atoms. Then the system can use that structure to turn the data row into data lines.

That molecule can act like a miniature USB stick. And it can transport data between two layers. At least. If there are some metal atoms where the system can store information. The molecular moon lander can also operate as a tool for nanotechnology. And it can transport things like enzymes to precise points. The molecular moon lander as this molecule is called can also act as a miniature antenna. That scans the objects that are on the graphite or graphene layers.

https://scitechdaily.com/a-molecular-moonlander-pph3s-movement-challenges-conventional-science/

https://scitechdaily.com/light-matter-particle-breakthrough-could-change-displays-forever/

https://scitechdaily.com/quantum-scrambling-chemical-reactions-rivaling-black-holes/

Quantum breakthrough: stable quantum entanglement at room temperature.

"Researchers have achieved quantum coherence at room temperature by embedding a light-absorbing chromophore within a metal-organic framework. This breakthrough, facilitating the maintenance of a quantum system’s state without external interference, marks a significant advancement for quantum computing and sensing technologies". (ScitechDaily, Quantum Computing Breakthrough: Stable Qubits at Room Temperature) Japanese researchers created stable quantum entanglement at room temperature. The system used a light-absorbing chromophore along with a metal-organic framework. This thing is a great breakthrough in quantum technology. The room-temperature quantum computers are the new things, that make the next revolution in quantum computing. This technology may come to markets sooner than we even think. The quantum computer is the tool, that requires advanced operating- and support systems. When the support system sees that the quantum entanglement starts to reach energy stability. I

The anomalies in gravity might cause dark energy.

"Physicists at UC Berkeley immobilized small clusters of cesium atoms (pink blobs) in a vertical vacuum chamber, then split each atom into a quantum state in which half of the atom was closer to a tungsten weight (shiny cylinder) than the other half (split spheres below the tungsten). (ScitechDaily, Beyond Gravity: UC Berkeley’s Quantum Leap in Dark Energy Research) By measuring the phase difference between the two halves of the atomic wave function, they were able to calculate the difference in the gravitational attraction between the two parts of the atom, which matched what is expected from Newtonian gravity. Credit: Cristian Panda/UC Berkeley" (ScitechDaily, Beyond Gravity: UC Berkeley’s Quantum Leap in Dark Energy Research) Researchers at Berkeley University created a model that can explain the missing energy of the universe. The idea is that the particles and their quantum fields are whisk-looking structures. Those structures form the superstrings that are extremely thi

Neon and time crystals can be the new tools for quantum computing.

"New research investigates the electron-on-solid-neon qubit, revealing that small bumps on solid neon surfaces create stable quantum states, enabling precise manipulation. This research, supported by multiple foundations, emphasizes the importance of optimizing qubit fabrication, moving us closer to practical quantum computing solutions." (ScitechDaily, Quantum Riddle Solved? How Solid Neon Qubits Could Change Computing Forever) Researchers created a superposition in solid neon. And those neon ions, where the system creates superposition in their surfaces. Making it possible to manipulate those atoms. The atom-based qubit has one problem. Orbiting electrons cause turbulence in their quantum fields. The thing that can solve the problem is to use the quantum fields for the superposition. If the system can position electrons at a certain point, it can make a small hill to the atom's surface. And the system can use that thing for making quantum superposition between the mos

Is the cat dead, or is it living? The revolutionary quantum world.

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