"Quantum teleportation"의 두 판 사이의 차이

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1. for the first time, a team of scientists and researchers have achieved sustained, high-fidelity ‘quantum teleportation’ — the instant transfer of ‘qubits’, the basic unit of quantum information.^[1]
2. the quantum teleportation of a qubit is achieved using quantum entanglement, in which two or more particles are inextricably linked to each other.^[1]
3. We can debate whether ‘quantum teleportation’ as a term is a catchy way of conveying a scientific idea, or a misleading bit of hype.^[2]
4. A common view is that quantum teleportation is a new way of transmitting information: a kind of high-speed quantum Wi-Fi.^[2]
5. So the real marvel of what we call quantum teleportation is not so much what we can do with it as a technology, but what it reveals about the deep quantum structure of the world.^[2]
6. Quantum teleportation is a demonstration of what Albert Einstein famously called “spooky action at a distance”—also known as quantum entanglement.^[3]
7. Quantum teleportation is an important means for transmitting information in quantum computing.^[3]
8. In order to demonstrate quantum teleportation using electrons, the researchers harnessed a recently developed technique based on the principles of Heisenberg exchange coupling.^[3]
9. The quantum teleportation of a qubit is achieved using quantum entanglement, in which two or more particles are inextricably linked to each other.^[4]
10. Here, we report the demonstration of chip-to-chip quantum teleportation and genuine multipartite entanglement, the core functionalities in quantum technologies, on silicon-photonic circuitry.^[5]
11. Quantum teleportation is a technique for transferring quantum information from a sender at one location to a receiver some distance away.^[6]
12. While teleportation is commonly portrayed in science fiction as a means to transfer physical objects from one location to the next, quantum teleportation only transfers quantum information.^[6]
13. Understanding quantum teleportation requires a good grounding in finite-dimensional linear algebra, Hilbert spaces and projection matrixes.^[6]
14. On 29 May 2014, scientists announced a reliable way of transferring data by quantum teleportation.^[6]
15. The name quantum teleportation brings to mind a technology out of Star Trek, where “transporters” can “beam” macroscale objects—even living humans—between far-distant points in space.^[7]
16. In quantum teleportation, the states of two entangled particles are what is transported—for instance, the spin of an electron.^[7]
17. If Alice wants to send Bob a message via quantum teleportation, she has to accompany it with classical information transported via photons—at the speed of light but no faster.^[7]
18. Oddly enough, quantum teleportation may also have important utility for secure communications in the future, and much of the research is funded with cybersecurity applications in mind.^[7]
19. He has authored more than 44 papers in leading technical journals and conferences, which includes the first realization of continuous-variable quantum teleportation.^[8]
20. “The first quantum teleportation took place in laboratory conditions.^[9]
21. Quantum teleportation is a demonstration of what Albert Einstein famously called "spooky action at a distance" -- also known as quantum entanglement.^[10]
22. But while teleportation in science fiction films often ignores physical laws, quantum teleportation works just because of that.^[11]
23. Performing quantum teleportation means that a quantum state disappears on one side and then reappears again at the other side.^[11]
24. Quantum repeaters use this concept of quantum teleportation.^[11]
25. Quantum teleportation is based on a hypothesis described in 1935 by physicist Albert Einstein and his colleagues Boris Podolsky and Nathan Rosen, known as the EPR paradox.^[12]
26. Since 1998, various experiments have achieved this quantum teleportation, initially using individual photons, then atoms and more complex systems.^[12]
27. However, it is essential to stress that quantum teleportation does not serve to transmit data instantaneously, or at faster than light speed.^[12]
28. But despite this limitation, the possibilities of quantum teleportation look more and more promising as new milestones are reached.^[12]
29. It has been known since the 1990s that multidimensional quantum teleportation is theoretically possible.^[13]
30. The core of quantum teleportation is the so-called Bell measurement.^[13]
31. The participating Chinese researchers also see great opportunities in multidimensional quantum teleportation.^[13]
32. Scientists are only beginning to understand the mysteries of entanglement and how it makes quantum teleportation possible.^[14]
33. Namely, in quantum teleportation, the entanglement in the Bell state (EPR pair) is used to transport an arbitrary quantum state |ψ〉 between two distant observers A and B (often called Alice and Bob).^[15]
34. Quantum teleportation is one of the most striking consequence of quantum mechanics and is defined as the transmission and reconstruction of an unknown quantum state over arbitrary distances.^[16]
35. Quantum teleportation allows the state |ϕ〉 to be transmitted with the aid of an EPR pair and classical communication.^[17]

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