@Article{jqc.2020.014734,
AUTHOR = {D. L. Khokhlov},
TITLE = {Interpretation of the Entangled States},
JOURNAL = {Journal of Quantum Computing},
VOLUME = {2},
YEAR = {2020},
NUMBER = {3},
PAGES = {147--150},
URL = {http://www.techscience.com/jqc/v2n3/41111},
ISSN = {2579-0145},
ABSTRACT = {An interpretation of the entangled states is considered. Two-photon
states of photon *A* on path *a* and photon *B* on path *b* with polarizations *H*, *V* are
constructed. Two synchronized photons, 1 and 2, can take the paths *a* and *b*, with
equal probability 50%. In the bases *a*, *b* and *H*, *V*, the states of the photons form
the product states. In the basis 1, 2, the states of the photons form the entangled
state. The states of the photons in the bases 1, 2; *a*, *b*; *H*, *V* are inseparable. The
correlation of the photons due to the entanglement in the basis 1, 2 can be seen in
the bases *a*, *b* and *H*, *V*. The interference term in the approach under
consideration and in the standard approach is the same thus providing for the
same correlation.},
DOI = {10.32604/jqc.2020.014734}
}