Quantum walk as a generalized measuring device
... be constructed as a convex combination of rank 1 elements. We will come back to this problem at the end of the next section. In case of a single qubit the orthogonality relation between states and rank 1 POVM elements uniquely determines the latter up to the magnitude. This property is going to be o ...
... be constructed as a convex combination of rank 1 elements. We will come back to this problem at the end of the next section. In case of a single qubit the orthogonality relation between states and rank 1 POVM elements uniquely determines the latter up to the magnitude. This property is going to be o ...
A Review and Prospects of Quantum Teleportation
... measurement results in two purely random classical bits u and v, bearing no correlation whatsoever with the original state . We now turn u and v back into quantum bits and reinject and in the circuit immediately after the dashed line. Clearly the quantum state carried at the dashed line has been com ...
... measurement results in two purely random classical bits u and v, bearing no correlation whatsoever with the original state . We now turn u and v back into quantum bits and reinject and in the circuit immediately after the dashed line. Clearly the quantum state carried at the dashed line has been com ...
Web FTP - Visicom Scientific Software
... The physically finite capacity of the brain introduces a difficult problem for the information theorist and the student of consciousness alike. When the reader now considers information How can something with N configurations theory below bit scale, one cannot avoid but memorise and retrieve accurat ...
... The physically finite capacity of the brain introduces a difficult problem for the information theorist and the student of consciousness alike. When the reader now considers information How can something with N configurations theory below bit scale, one cannot avoid but memorise and retrieve accurat ...
A Study on Reversible Logic Gates of Quantum Computing
... though a qubit has discrete eigenstates, there is something analog about it also in the continuous range of superposition states that it can take on. In recent years quantum computing becomes a forefront research in the field of algorithms, cryptography and artificial intelligence [5,6].We can descr ...
... though a qubit has discrete eigenstates, there is something analog about it also in the continuous range of superposition states that it can take on. In recent years quantum computing becomes a forefront research in the field of algorithms, cryptography and artificial intelligence [5,6].We can descr ...
