Dickfore said:Entanglement does not mean exchanging virtual particles. It means several identical, and indistinguishable particles to be found in a common multi-particle state that cannot be factor in single-particle states. The nucleus, and the electron are intrinsically different. Therefore, one cannot speak of entanglement in the usual sense, as used in Quantum Mechanics.
referframe said:Virtual particles not causing entanglement makes sense. Thanks.
But, from what I have read (Susskind, Penrose), entanglement between different types of parties can exist. Entanglement that occurs between identical particles is just one type of entanglement.
The concept of electrons entangled with nucleus refers to a phenomenon in quantum mechanics where the spin of an electron and the spin of a nucleus are correlated or connected in a way that their states cannot be described independently. This means that the properties of one particle can affect the properties of the other, even if they are separated by a great distance.
Electrons become entangled with the nucleus through interactions between their spins. This can occur through a process known as spin-spin coupling, where the spins of two particles interact and become correlated. In some cases, entanglement can also occur through the exchange of particles, such as photons.
Entanglement between electrons and nucleus has potential applications in quantum computing, where entangled particles can be used to perform calculations much faster than classical computers. It can also be used for secure communication, as any attempts to intercept or measure the particles would disrupt the entanglement.
Yes, entanglement between electrons and nucleus can be observed through various experimental techniques such as quantum state tomography and Bell inequality tests. These experiments involve measuring the properties of the particles and comparing them to theoretical predictions.
No, entanglement between electrons and nucleus is not a permanent state. It can be easily disrupted by external factors such as interactions with other particles or environmental noise. However, it can also be created and maintained through careful control and isolation of the entangled particles.