QUANTUM COMPUTATION Janusz Adamowski
... (2) The Bell states are the entangled states = e-bits. (3) Einstein-Podolsky-Rosen (EPR) paradox: When measuring one qubit we obtain, without performing the measurement, the value of the second qubit. Comment on property (3) Let us consider the system AB in state ...
... (2) The Bell states are the entangled states = e-bits. (3) Einstein-Podolsky-Rosen (EPR) paradox: When measuring one qubit we obtain, without performing the measurement, the value of the second qubit. Comment on property (3) Let us consider the system AB in state ...
Lecture 1
... Perform the “same” experiment with electrons We observe the same outcome of the experiment Even when single electrons are emitted The wave-like behavior is not just statistical ...
... Perform the “same” experiment with electrons We observe the same outcome of the experiment Even when single electrons are emitted The wave-like behavior is not just statistical ...
Quantum field theory and knot invariants
... There are three notable features: • we are using propagators on subspaces with shared boundary; • we combine them with an inner product-like thing to get the full propagator; • in the integrand, the functions U (xint , x; t0 ) and U (x0 , xint ; t − t0 ) depend only on position xint , hence live in ...
... There are three notable features: • we are using propagators on subspaces with shared boundary; • we combine them with an inner product-like thing to get the full propagator; • in the integrand, the functions U (xint , x; t0 ) and U (x0 , xint ; t − t0 ) depend only on position xint , hence live in ...
Identical particles
... Elementary particles have spin, which is the name that we give to the intrinsic angular momentum of the particle. It is the angular momentum that the particle has that does not come from its motion via the orbital angular momentum L = r × p . The symbol used for spin is usually s or S. Like orbital ...
... Elementary particles have spin, which is the name that we give to the intrinsic angular momentum of the particle. It is the angular momentum that the particle has that does not come from its motion via the orbital angular momentum L = r × p . The symbol used for spin is usually s or S. Like orbital ...
Introduction: effective spin
... j0 • Observed in electronic transport, light/sound waves. Recently in the field of ultracold ...
... j0 • Observed in electronic transport, light/sound waves. Recently in the field of ultracold ...
PPT
... The input data is ( j1,…, jn) {1,…,d}n, each independently sampled according the probability distribution p = (p1,…, pd) The compression procedure is to leave ( j1,…, jn) intact if it is -typical and otherwise change it to some fixed -typical sequence, say, ( j ,…, j) (which will result in an err ...
... The input data is ( j1,…, jn) {1,…,d}n, each independently sampled according the probability distribution p = (p1,…, pd) The compression procedure is to leave ( j1,…, jn) intact if it is -typical and otherwise change it to some fixed -typical sequence, say, ( j ,…, j) (which will result in an err ...
