inseparability$39523$ - определение. Что такое inseparability$39523$
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Что (кто) такое inseparability$39523$ - определение

CORRELATION BETWEEN MEASUREMENTS OF QUANTUM SUBSYSTEMS, EVEN WHEN SPATIALLY SEPARATED
Entangled state; Photon entanglement; Brief explanation of entanglement in terms of photons; Quanglement; Spukhafte Fernwirkungen; Spooky action; Quantum Entanglement; Reduced density matrix; Spooky effect; Quantum entangled; Quantum inseparability; Spukhafte Fernwirkung; Electron entanglement; Light entanglement; Entanglement theory; Entanglement (physics); Maximally entangled state; Entangled quantum states; EPR entanglement; Reduced density operator
  • Einstein–Podolsky–Rosen (EPR) paradox]] paper, in the May 4, 1935 issue of ''[[The New York Times]]''.
  • [[Spontaneous parametric down-conversion]] process can split photons into type II photon pairs with mutually perpendicular polarization.
  • The plot of von Neumann entropy Vs Eigenvalue for a bipartite 2-level pure state. When the eigenvalue has value 0.5, von Neumann entropy is at a maximum, corresponding to maximum entanglement.

Inseparability         
KEY QUALITY OF SERVICES THAT THE PROVISION OF A SERVICE REQUIRES THE INVOLVEMENT OF BOTH CUSTOMER AND PROVIDER SIMULTANEOUSLY
Inseparability (services)
·noun The quality or state of being inseparable; inseparableness.
inseparability         
KEY QUALITY OF SERVICES THAT THE PROVISION OF A SERVICE REQUIRES THE INVOLVEMENT OF BOTH CUSTOMER AND PROVIDER SIMULTANEOUSLY
Inseparability (services)
n.
Inseparableness.
Inseparability         
KEY QUALITY OF SERVICES THAT THE PROVISION OF A SERVICE REQUIRES THE INVOLVEMENT OF BOTH CUSTOMER AND PROVIDER SIMULTANEOUSLY
Inseparability (services)
Inseparability is used in marketing to describe a key quality of services as distinct from goods. Inseparability is the characteristic that a service has which renders it impossible to divorce the supply or production of the service from its consumption.

Википедия

Quantum entanglement

Quantum entanglement is the phenomenon that occurs when a group of particles are generated, interact, or share spatial proximity in a way such that the quantum state of each particle of the group cannot be described independently of the state of the others, including when the particles are separated by a large distance. The topic of quantum entanglement is at the heart of the disparity between classical and quantum physics: entanglement is a primary feature of quantum mechanics not present in classical mechanics.

Measurements of physical properties such as position, momentum, spin, and polarization performed on entangled particles can, in some cases, be found to be perfectly correlated. For example, if a pair of entangled particles is generated such that their total spin is known to be zero, and one particle is found to have clockwise spin on a first axis, then the spin of the other particle, measured on the same axis, is found to be anticlockwise. However, this behavior gives rise to seemingly paradoxical effects: any measurement of a particle's properties results in an apparent and irreversible wave function collapse of that particle and changes the original quantum state. With entangled particles, such measurements affect the entangled system as a whole.

Such phenomena were the subject of a 1935 paper by Albert Einstein, Boris Podolsky, and Nathan Rosen, and several papers by Erwin Schrödinger shortly thereafter, describing what came to be known as the EPR paradox. Einstein and others considered such behavior impossible, as it violated the local realism view of causality (Einstein referring to it as "spooky action at a distance") and argued that the accepted formulation of quantum mechanics must therefore be incomplete.

Later, however, the counterintuitive predictions of quantum mechanics were verified in tests where polarization or spin of entangled particles were measured at separate locations, statistically violating Bell's inequality. In earlier tests, it could not be ruled out that the result at one point could have been subtly transmitted to the remote point, affecting the outcome at the second location. However, so-called "loophole-free" Bell tests have since been performed where the locations were sufficiently separated that communications at the speed of light would have taken longer—in one case, 10,000 times longer—than the interval between the measurements.

According to some interpretations of quantum mechanics, the effect of one measurement occurs instantly. Other interpretations which do not recognize wavefunction collapse dispute that there is any "effect" at all. However, all interpretations agree that entanglement produces correlation between the measurements, and that the mutual information between the entangled particles can be exploited, but that any transmission of information at faster-than-light speeds is impossible.

Quantum entanglement has been demonstrated experimentally with photons, electrons, and even small diamonds. The use of entanglement in communication, computation and quantum radar is a very active area of research and development.

Despite much popular thought to the contrary, quantum entanglement cannot be used for faster-than-light communication.