PowerPoint version 0.4MB - School of Mathematics | Georgia
... digital basis • The algorithm has to be such that the desired result is right whatever the outcome of the measurement !! ...
... digital basis • The algorithm has to be such that the desired result is right whatever the outcome of the measurement !! ...
Cryogenic Control Architecture for Large
... the wiring and interconnect density by making use of lithography (or multichip module packaging) to provide connection fan-out. In this way, we envisage a switch matrix that receives multiplexed data on a small number of transmission lines and decodes these address data to operate large numbers of p ...
... the wiring and interconnect density by making use of lithography (or multichip module packaging) to provide connection fan-out. In this way, we envisage a switch matrix that receives multiplexed data on a small number of transmission lines and decodes these address data to operate large numbers of p ...
Private Quantum Channels
... that privately sends any n-qubit state using 2n bits of randomness (shared key). We also exhibit a non-trivial set of n-qubit states, namely the tensor products of qubits with real amplitudes, for which there is PQC requiring only n bits of randomness. The latter result includes the classical one-ti ...
... that privately sends any n-qubit state using 2n bits of randomness (shared key). We also exhibit a non-trivial set of n-qubit states, namely the tensor products of qubits with real amplitudes, for which there is PQC requiring only n bits of randomness. The latter result includes the classical one-ti ...
Quantum Computer
... A computation device that makes direct use of quantum-mechanical phenomenon such as superposition and entanglement to perform operations on data ...
... A computation device that makes direct use of quantum-mechanical phenomenon such as superposition and entanglement to perform operations on data ...
Solid-state quantum computing using spectral holes M. S. Shahriar, P. R. Hemmer,
... single-particle Raman transitions. Consider a situation where each atom has a ⌳-type transition, with two nondegenerate spin states coupled to a single optically excited state, as shown in Fig. 1. For two atoms separated by a frequency matching the energy difference between the low-lying states, cho ...
... single-particle Raman transitions. Consider a situation where each atom has a ⌳-type transition, with two nondegenerate spin states coupled to a single optically excited state, as shown in Fig. 1. For two atoms separated by a frequency matching the energy difference between the low-lying states, cho ...
The Computational Difficulty of Spin Chains in One Dimension
... comptuation: Shepherd, Franz, and Werner (quantph/0512058) construct a universal 1-dimensional quantum cellular automaton with 12 states per site. • Finding specific properties, like the ground state energy, one might expect to be easier, because after all there is just one number to know, and indee ...
... comptuation: Shepherd, Franz, and Werner (quantph/0512058) construct a universal 1-dimensional quantum cellular automaton with 12 states per site. • Finding specific properties, like the ground state energy, one might expect to be easier, because after all there is just one number to know, and indee ...