
Algorithms and Architectures for Quantum Computers
... problem of finding a certain classical code. All previously known non-stabilizer quantum codes can be constructed within the CWS construction, and many new codes have been found as well, although there remain further quantum codes outside of the CWS formalism: ...
... problem of finding a certain classical code. All previously known non-stabilizer quantum codes can be constructed within the CWS construction, and many new codes have been found as well, although there remain further quantum codes outside of the CWS formalism: ...
Chapter 6
... •Heisenberg showed that the more precisely the momentum of a particle is known, the less precisely is its position known: •In many cases, our uncertainty of the whereabouts of an electron is greater than the size of the atom itself! Quantum Mechanics •Erwin Schrödinger developed a mathematical treat ...
... •Heisenberg showed that the more precisely the momentum of a particle is known, the less precisely is its position known: •In many cases, our uncertainty of the whereabouts of an electron is greater than the size of the atom itself! Quantum Mechanics •Erwin Schrödinger developed a mathematical treat ...
6pp
... in carrying out a computational task. • A quantum system can be put in a superposition of multiple states and can evolve along multiple trajectories simultaneously, only to choose a definite state at the time of measurement. • A quantum computer tries to exploit this parallelism that classical compu ...
... in carrying out a computational task. • A quantum system can be put in a superposition of multiple states and can evolve along multiple trajectories simultaneously, only to choose a definite state at the time of measurement. • A quantum computer tries to exploit this parallelism that classical compu ...
R4-24
... The Eightfold Way: SU(3) The pattern of multiplets makes clear the existence of quarks with “triplet” quantum numbers and the regularities in the spectrum. From the spectral regularities one can make predictions and obtain information on the dynamics (SU(3) breaking terms). ...
... The Eightfold Way: SU(3) The pattern of multiplets makes clear the existence of quarks with “triplet” quantum numbers and the regularities in the spectrum. From the spectral regularities one can make predictions and obtain information on the dynamics (SU(3) breaking terms). ...
View PDF - The Institute of Optics
... phase ramp in one cartesian dimension is simply a wavefront tilt, and leads to a shift in the position of the beam in the far field. It turns out that one can determine analytically the form of the phase function that needs to be applied to a light field to perform this mapping. In both the original w ...
... phase ramp in one cartesian dimension is simply a wavefront tilt, and leads to a shift in the position of the beam in the far field. It turns out that one can determine analytically the form of the phase function that needs to be applied to a light field to perform this mapping. In both the original w ...
Third Quarter 2011 (Volume 6, Number 2)
... out earlier for Kolmogorov complexity: we can always describe the system’s state after t time steps by specifying the initial state, the transition rule, and t. Therefore the sophistication can never exceed log(t) + c. Even for probabilistic systems, though, we can specify the set S(t) of all possib ...
... out earlier for Kolmogorov complexity: we can always describe the system’s state after t time steps by specifying the initial state, the transition rule, and t. Therefore the sophistication can never exceed log(t) + c. Even for probabilistic systems, though, we can specify the set S(t) of all possib ...
pdf
... in quantum information theory and experiment has made the physical interpretation of quantum mechanics more relevant than ever to practicing physicists. [5] When considering student perspectives on quantum phenomena, it is important to understand that through instruction in classical physics, or eve ...
... in quantum information theory and experiment has made the physical interpretation of quantum mechanics more relevant than ever to practicing physicists. [5] When considering student perspectives on quantum phenomena, it is important to understand that through instruction in classical physics, or eve ...
A Quantum Mechanical Maxwellian Demon 2017
... respectively – is registered in the memory state of the measuring device. At t 3 the partition is replaced by a piston (in accordance with the measurement outcome), which is subsequently pushed by the particle at t 4 . The piston is coupled to a weight located outside the box which is raised during ...
... respectively – is registered in the memory state of the measuring device. At t 3 the partition is replaced by a piston (in accordance with the measurement outcome), which is subsequently pushed by the particle at t 4 . The piston is coupled to a weight located outside the box which is raised during ...
Deterministic Bell State Discrimination
... multipartite orthogonal states can be unequivocally distinguished through LOCC [11]. If two copies belonging to the four orthogonal Bell states are provided, LOCC can be used to distinguish them with certainty. It is not possible to discriminate, either deterministically or probabilistically the fou ...
... multipartite orthogonal states can be unequivocally distinguished through LOCC [11]. If two copies belonging to the four orthogonal Bell states are provided, LOCC can be used to distinguish them with certainty. It is not possible to discriminate, either deterministically or probabilistically the fou ...