mfb- t1_jdu8hgd wrote
Reply to comment by the_fungible_man in Can you entangle more than two particles? Can entanglement be produced on a macroscopic scale to observe new physical interactions? by and-no-and-then
The state itself should be easy to understand after a course on quantum mechanics, so hopefully for most with a BSc in physics. The state is a superposition of these two options "all particles are in state 1" and "all particles are in state 0" (for some systems that have these two options for each particle). It's pretty similar to the typical example of two entangled particles where you have one particle in one state and the other in the other, or both in the same state. Just with a third particle.
the_fungible_man t1_jdu9l79 wrote
Thank you.
Blakut t1_jduspez wrote
so there is no |101> state?
TopologicalInsulator t1_jduxfr3 wrote
Not as part of the GHZ state, but you could of course make a |101> state on its own.
El_Sephiroth t1_jdzq8h1 wrote
More like |-1,0,1> because |101> would be |0>+2×|1> If I remember correctly
Viewing a single comment thread. View all comments