Physics – Condensed Matter – Mesoscale and Nanoscale Physics
Scientific paper
2009-11-23
Physics
Condensed Matter
Mesoscale and Nanoscale Physics
27 pages, 10 figures. New section added on Very Low Frequency Noise, with two additional figures. Conclusions, Abstract modifi
Scientific paper
10.1007/s11128-010-0224-8
We study the effects of noise and decoherence for a double-potential well system, suitable for the fabrication of qubits and quantum logic elements. A random noise term is added to the hamiltonian, the resulting wavefunction found numerically and the density matrix obtained by averaging over noise signals. Analytic solutions using the two-state model are obtained and found to be generally in agreement. In particular, a simple formula for the decoherence rate in terms of the noise parameters in the two-state model is reviewed and verified for the full simulation with the multi-level system. The formalism is extended to describe multiple sources of noise or different "dephasing" axes at the same time. Furthermore, the old formula for the "Turing-Watched Pot" effect is generalized to the case where the environmental interactions do not conserve the "quality" in question. Various forms for the noise signal are investigated. An interesting result is the importance of the noise power at low frequency. If it vanishes there is, in leading order, no decoherence. This is verified in a numerical simulation where two apparently similar noise signals, but differing in the power at zero frequency, give strikingly different decoherence effects. A short discussion of situations dominated by low frequency noise is given.
Korcyl Piotr
Stodolsky Leo
Wosiek Jacek
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