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Honorable_Death
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I know that if you have two entangled particles and measure ones spin, the other one must have the opposite spin, but what if you have 3 particles entangled with each other, what would happen?
Honorable_Death said:I know that if you have two entangled particles and measure ones spin, the other one must have the opposite spin, but what if you have 3 particles entangled with each other, what would happen?
Entanglement with more than two particles is a phenomenon in quantum mechanics where multiple particles become connected in such a way that the state of one particle affects the state of the other particles, regardless of distance. This means that the particles are no longer independent and must be described as a whole system rather than individual entities.
Entanglement with two particles, also known as bipartite entanglement, occurs when two particles are connected and their states are dependent on one another. In contrast, entanglement with more than two particles, also known as multipartite entanglement, involves three or more particles that are all connected and have interdependent states.
Entanglement with more than two particles has potential applications in quantum computing, communication, and cryptography. It can also be used for secure communication, where the entangled particles are used to transmit information in a way that cannot be intercepted without being detected.
Yes, entanglement with more than two particles can be observed and measured through various methods, such as Bell inequality tests, quantum state tomography, and quantum correlation measurements. These techniques allow scientists to verify the presence and degree of entanglement between multiple particles.
Yes, entanglement with more than two particles has been demonstrated and proven through numerous experiments and observations in the field of quantum mechanics. It is a fundamental concept that has been extensively studied and confirmed by scientists, making it an essential component of the theory and practice of quantum mechanics.