Strange quantum universe
Even how matter exists in the first place is a mystery for physicists
In 2022, three scientists won the Nobel Prize in Physics for trying something surprising: the universe is not locally real. In other words, the parties do not have fixed properties until they are measured. Although it seems to counteract everywhere where we perceive, the discovery was established by some of the most rigorous experiments ever made, and align with an Albert Einstein prediction and its creamleages made almost 100 years ago, the Evenrosters straigan distances. Today the quantum strangeness is no longer limited to the theory. Researchers are tangled objects large enough to see, quantum computers are on the cusp or solve problems that no classic machine can touch, and speculative ideas such as vacuum decomposition and alternative realities are a serious science. The quantum era has arrived.
The strange quantum dynamics supports our vision of reality: time travels forward for us, but in the quantum world, it can flow in two directions. Gravity can follow quantum rules. Quantum mechanics supports the possibility of alternative universes, but even if they exist, we cannot access them (and probable we should not anyway). Some physicists argue that the quantum rules dictate that everything in the universe is predetermined, which makes free will be an illusion, so we could also accept our current reality.
These ideas are feeding a tremendous scientific innovation. The strongest force in nature, which unites quarks within protons and neutrons, can be dictated by quantum interactions. Scientists have discovered that vostrones swarm in a quantum tangle soup in a recently discovered class called Strange Metals. An experiment lodged in depth underground in a Sardinian mine is designed to determine the weight of the empty space, yes, it weighs something and, therefore, areolate the particles predicted by the quantum field theory. To better understand the most unexplaced baavior of the quantum parts, physicists have created light wave networks that simulate solid materials.
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If there are many universes, the stars and the planets that could be formed in our could be the best evidence for them. But even how matter exists in the first place is a mystery for physicists. The universe seems stable, but an unlikely change in the Higgs field, a quantum field that permeates the entire space, could trigger a bubble that passes through the universe, annihilating all the subject.
Perhaps the most tangible application of quantum discovery is in computing. The key to quantum computing is the qbit, and promises to make electronic machines obsolete. In a type of computerist career, researchers try to build systems that can avoid the power of future computer pirates with quantum weapons. However, despite the exaggeration and the Big Tech press announcements, so far no company has achieved “quantum advantage”, that is, a quantum computer capable of solving a problem that no classic computer can.
For body creatures such as humans, dealing with a universe that may not be unique, the time that moves in many directions, and the matter that both exists is amazing, to say the least. Two giants in early quantum theory, Werner Heisenberg and John Bell, speculated that because we perceive as we do, the mind, in a sense, defines quantum interactions. Its implications are cosmic, but the quantum kingdom is definitely human.
