Search

Your search keyword '"Bergou J"' showing total 150 results
Start Over Author "Bergou J"
150 results on '"Bergou J"'

1. Phase estimation with limited coherence

Author

Munoz-Lahoz, D., Calsamiglia, J., Bergou, J. A., and Bagan, E.

Subjects
Quantum Physics
Abstract

We investigate the ultimate precision limits for quantum phase estimation in terms of the coherence, $C$, of the probe. For pure states, we give the minimum estimation variance attainable, $V(C)$, and the optimal state, in the asymptotic limit when the probe system size, $n$, is large. We prove that pure states are optimal only if $C$ scales as $n$ with a sufficiently large proportionality factor, and that the rank of the optimal state increases with decreasing $C$, eventually becoming full-rank. We show that the variance exhibits a Heisenberg-like scaling, $V(C) \sim a_n/C^2$, where $a_n$ decreases to $\pi^2/3$ as $n$ increases, leading to a dimension-independent relation., Comment: 10 pages, 5 figures

Published
2022

2. Optimal Cloning of Quantum States with a Fixed Failure Rate

Author

Bagan, E., Yerokhin, V., Shehu, A., Feldman, E., and Bergou, J. A.

Subjects
Quantum Physics
Abstract

Perfect cloning of a known set of states with arbitrary prior probabilities is possible if we allow the cloner to sometimes fail completely. In the optimal case the probability of failure is at its minimum allowed by the laws of quantum mechanics. Here we show that it is possible to lower the failure rate below that of the perfect probabilistic cloner but the price to pay is that the clones are not perfect; the global fidelity is less than one. We determine the optimal fidelity of a cloner with a Fixed Failure Rate (FFR cloner) in the case of a pair of known states. Optimality is shown to be attainable by a measure-and-prepare protocol in the limit of infinitely many clones. The optimal protocol consists of discrimination with a fixed rate of inconclusive outcome followed by preparation of the appropriate clones. The convergence shows a symmetry-breaking second-order phase transition in the fidelity of the approximate infinite clones., Comment: 7 pages, 3 figures

Published
2016

3. Optimal discrimination of quantum states with a fixed rate of inconclusive outcomes

Author

Bagan, E., Munoz-Tapia, R., Olivares-Renteria, G. A., and Bergou, J. A.

Subjects
Quantum Physics
Abstract

In this paper we present the solution to the problem of optimally discriminating among quantum states, i.e., identifying the states with maximum probability of success when a certain fixed rate of inconclusive answers is allowed. By varying the inconclusive rate, the scheme optimally interpolates between Unambiguous and Minimum Error discrimination, the two standard approaches to quantum state discrimination. We introduce a very general method that enables us to obtain the solution in a wide range of cases and give a complete characterization of the minimum discrimination error as a function of the rate of inconclusive answers. A critical value of this rate is identified that coincides with the minimum failure probability in the cases where unambiguous discrimination is possible and provides a natural generalization of it when states cannot be unambiguously discriminated. The method is illustrated on two explicit examples: discrimination of two pure states with arbitrary prior probabilities and discrimination of trine states.

Published
2012
Full Text
View/download PDF

4. Periodically Pulsed Strong Squeezing

Author

Adamyan, H., Bergou, J., Gevorgyan, N., and Kryuchkyan, G.

Subjects
Quantum Physics
Abstract

We report on specific signatures of squeezing for time-modulated light fields. We show that application of periodically-modulated driving fields instead of continuous wave fields drastically improves the degree of quadrature integral squeezing in an optical parametric oscillator. These results particularly allow for applications in time-resolved quantum communication protocols., Comment: 4 pages, 4 figures, Proceedings of conference "Laser physics - 2004", Ashtarak-2, Armenia

Published
2005

5. Quadratic squeezing: An overview

Author

Hillery, M, Yu, D, and Bergou, J

Subjects
Communications And Radar
Abstract

The amplitude of the electric field of a mode of the electromagnetic field is not a fixed quantity: there are always quantum mechanical fluctuations. The amplitude, having both a magnitude and a phase, is a complex number and is described by the mode annihilation operator a. It is also possible to characterize the amplitude by its real and imaginary parts which correspond to the Hermitian and anti-Hermitian parts of a, X sub 1 = 1/2(a(sup +) + a) and X sub 2 = i/2(a(sup +) - a), respectively. These operators do not commute and, as a result, obey the uncertainty relation (h = 1) delta X sub 1(delta X sub 2) greater than or = 1/4. From this relation we see that the amplitude fluctuates within an 'error box' in the complex plane whose area is at least 1/4. Coherent states, among them the vacuum state, are minimum uncertainty states with delta X sub 1 = delta X sub 2 = 1/2. A squeezed state, squeezed in the X sub 1 direction, has the property that delta X sub 1 is less than 1/2. A squeezed state need not be a minimum uncertainty state, but those that are can be obtained by applying the squeeze operator.

Published
1992

14. Book reviews

Author

Apagyi, B., Csikor, F., Abonyi, I., Geszti, T., Vasvári, B., L. I., Bergou, J., Gyulai, J., Kroó, N., Kovács, I., Zimmer, K., Perjés, Z., Nagy, I., Pócsik, G., Gyarmati, I., Marton, D., Nemes, L., Verhás, J., Szlachányi, K., Nemes, L., and Palló, G.

Published
1987
Full Text
View/download PDF

49. Quantum optics.

Author

Last, I., Baer, M., Konopnicki, M., Drummond, P., Eberly, J., Kaplan, A., Meystre, P., Bergou, J., Varró, S., Hioe, F., Benjamin, J., Levine, R., Roosmalen, O., Tachello, F., Zmuidzinas, J., Walls, D., Strini, G., Casagrande, F., Lugiato, L., and Milburn, G.

Published
1982
Full Text
View/download PDF

Catalog

Books, media, physical & digital resources
See catalog results