What do you mean by "compatible" Hilbert spaces? Mathematically, a composite quantum system with Hilbert spaces H1 and H2 is described by the tensor product H1⊗H2 which does not require the spaces to be of the same dimension. For example, the spatial Hilbert space of a free electron has the dimension infinity while its spin Hilbert space has the dimension 2.referframe said:From what I have read so far, it seems as though entanglement can only exist between particles of the same type (2 photons, 2 electrons, etc.) - that their Hilbert spaces must be compatible and of the same dimension.
Entanglement is a quantum phenomenon where two particles become connected in such a way that the state of one particle cannot be described without considering the state of the other particle, even if they are physically separated.
Yes, different types of particles can be entangled. In fact, entanglement has been observed between photons, electrons, atoms, and even larger molecules. As long as the particles interact with each other, they can become entangled.
Entanglement between different types of particles can occur through a variety of methods, such as spontaneous emission, quantum interference, or interaction with a common environment. The exact mechanism depends on the specific system and conditions.
Entanglement between different types of particles has many potential applications in quantum information processing, including quantum teleportation, superdense coding, and quantum cryptography. It also has practical uses in technologies such as quantum sensors and quantum computers.
Yes, scientists are able to create and control entanglement between different types of particles in laboratory settings. This is achieved through precise manipulation of the particles and their interactions, as well as the use of specialized equipment and techniques such as quantum entanglement gates.