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Your search keyword '"Amniat-Talab, M."' showing total 107 results
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107 results on '"Amniat-Talab, M."'

1. Effects of partial measurements on quantum resources and quantum Fisher information of a teleported state in a relativistic scenario

Author

Jafarzadeh, M., Jahromi, H. Rangani, and Amniat-Talab, M.

Subjects
Quantum Physics
Abstract

We address the teleportation of single- and two-qubit quantum states, parametrized by weight $\theta$ and phase $\phi$ parameters, in the presence of the Unruh effect experienced by a mode of a free Dirac field. We investigate the effects of the partial measurement (PM) and partial measurement reversal (PMR) on the quantum resources (QRs) and quantum Fisher information (QFI) of the teleported states. In particular, we discuss the optimal behavior of the QFI, quantum coherence (QC) as well as fidelity with respect to the PM and PMR strength and examine the effect of the Unruh noise on optimal estimation. It is found that in the single-qubit scenario, the PM (PMR) strength at which the optimal estimation of the phase parameter occurs, is the same as the PM (PMR) strength with which the teleportation fidelity and the QC of the teleported single-qubit state reaches to its maximum value. On the other hand, generalizing the results to two-qubit teleportation, we find that the encoded information in the weight parameter is better protected against the Unruh noise in two-qubit teleportation than the one-qubit scenario. However, extraction of information encoded in the phase parameter is more efficient in single-qubit teleportation than the two-qubit one.

Published
2019
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4. Robust creation of atomic W state in a cavity by adiabatic passage

Author

Amniat-Talab, M., Saadati, M., and Guerin, S.

Subjects
Quantum Physics
Abstract

We propose two robust schemes to generate controllable (deterministic) atomic W-states of three three-level atoms interacting with an optical cavity and a laser beam. Losses due to atomic spontaneous emissions and to cavity decay are efficiently suppressed by employing adiabatic passage technique and appropriately designed atom-field couplings. In these schemes the three atoms traverse the cavity-mode and the laser beam and become entangled in the free space outside the cavity., Comment: 7 pages, 6 figures. Submitted to Optics Communications

Published
2009
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5. Quantum state engineering in a cavity by Stark chirped rapid adiabatic passage

Author

Amniat-Talab, M., Khoda-Bakhsh, R., and Guérin, S.

Subjects
Quantum Physics
Abstract

We propose a robust scheme to generate single-photon Fock states and atom-photon and atom-atom entanglement in atom-cavity systems. We also present a scheme for quantum networking between two cavity nodes using an atomic channel. The mechanism is based on Stark-chirped rapid adiabatic passage (SCRAP) and half-SCRAP processes in a microwave cavity. The engineering of these states depends on the design of the adiabatic dynamics through the static and dynamic Stark shifts., Comment: 7 pages, 8 figures, to be appeared in PLA

Published
2006
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6. Atom-photon, atom-atom and photon-photon entanglement preparation via fractional adiabatic passage

Author

Amniat-Talab, M., Guerin, S., Sangouard, N., and Jauslin, H. R.

Subjects
Quantum Physics
Abstract

We propose a relatively robust scheme to generate maximally entangled states of (i) an atom and a cavity photon, (ii) two atoms in their ground states, and (iii) two photons in two spatially separate high-Q cavities. It is based on the interaction via fractional adiabatic passage of a three-level atom traveling through a cavity mode and a laser beam. The presence of optical phases is emphasized., Comment: 6 pages, 7 figures. We have changed the title, the abstract and the text. The references have been updated. (Accepted by Phys. Rev. A)

Published
2004
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7. Generation of multi-photon Fock states by bichromatic adiabatic passage: topological analysis

Author

Amniat-Talab, M., Lagrange, S., Guerin, S., and Jauslin, H. R.

Subjects
Quantum Physics
Abstract

We propose a robust scheme to generate multi-photon Fock states in an atom-maser-cavity system using adiabatic passage techniques and topological properties of the dressed eigenenergy surfaces. The mechanism is an exchange of photons from the maser field into the initially empty cavity by bichromatic adiabatic passage. The number of exchanged photons depends on the design of the adiabatic dynamics through and around the conical intersections of dressed eigenenergy surfaces., Comment: 6 pages, 4 figures

Published
2004
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8. Quantum averaging and resonances: two-level atom in a one-mode quantized field

Author

Amniat-Talab, M., Guerin, S., and Jauslin, H. R.

Subjects
Quantum Physics
Abstract

We construct a non-perturbative approach based on quantum averaging combined with resonant transformations to detect the resonances of a given Hamiltonian and to treat them. This approach, that generalizes the rotating-wave approximation, takes into account the resonances at low field and also at high field (non-linear resonances). This allows to derive effective Hamiltonians that contain the qualitative features of the spectrum, i.e. crossings and avoided crossings, as a function of the coupling constant. At a second stage the precision of the spectrum can be improved quantitatively by standard perturbative methods like contact transformations. We illustrate this method to determine the spectrum of a two-level atom interacting with a single mode of a quantized field., Comment: 11 pages, 4 figures

Published
2003

29. Stimulated Raman shortcut to adiabatic passage in chainwise and N-pod systems.

Author

Irani, N., Amniat-Talab, M., and Saadati-Niari, M.

Subjects
*COHERENCE (Optics), *HAMILTONIAN systems, *RAMAN lasers
Abstract

The technique of stimulated Raman shortcut to adiabatic passage (STIRSAP) is implemented to chainwise and N-pod systems. In chainwise systems, for large detuning conditions, the population of the middle states can be suppressed during the time evolution of the system and therefore, the Hamiltonian of an N-state system is reduced to an effective two-level system, using adiabatic elimination technique. Applying the STIRSAP method in two-level systems, the modified Rabi frequencies for fast population transfer are achieved. For N + 1-pod systems, assuming that N Stokes pulses have the same time dependence, we reduce the Hamiltonian of the original system to a three-state system. For both resonance and detuning conditions, we can reduce the three-state Hamiltonian to an effective two-state one. Using the STIRSAP technique, robust population transfer can be achieved from an initial ground state to an arbitrary coherent superposition of all ground states. [ABSTRACT FROM AUTHOR]

Published
2022
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33. Enhanced alignment and orientation of polar molecules by vibrational resonant adiabatic passage.

Author

Yatsenko, L. P., Guérin, S., Amniat-Talab, M., and Jauslin, H. R.

Subjects
MOLECULES, LASER beams, ROTATIONAL motion, ROTOR dynamics, VIBRATIONAL spectra, ADIABATIC invariants
Abstract

The authors show that polar molecules can be adiabatically aligned and oriented by laser pulses more efficiently when the laser frequencies are vibrationally resonant. The aligned molecules are found in a superposition of vibrational pendular states, each associated with the alignment of the rotor in one vibrational state. The authors construct the dressed potential associated with this mechanism. Values of detunings and field amplitudes are given to optimize the degree of alignment and orientation for the CO molecule. [ABSTRACT FROM AUTHOR]

Published
2007
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47. Creation of coherent superposition of states in N -pod systems by a train of coincident pulses.

Author

Saadati-Niari, M. and Amniat-Talab, M.

Subjects
*COHERENCE (Optics), *SUPERPOSITION (Optics), *COINCIDENCE theory, *RESONANCE, *GROUND state (Quantum mechanics), *QUANTUM states
Abstract

We study a train of coincident pulses technique in anN-pod system driven byNpulsed fields, when all of the pulses have the same shape and are on exact resonance. We show that the solution of anN-pod system composed ofNdegenerate ground states and one upper excited state can be reduced using the Morris–Shore transformation to the solution of a three-state system involving an initial superposition ofMground states, the excited state and superposition of remainingground states. We use reduced three-state propagator to create any preselected coherent superposition of states by a train of coincident pulses. A proper pulse train is used to connect any two preselected superposition states of anN-pod system. Other advantages of this method are exact analytic solution and enhancement to the robustness of system against deviation from exact pulse areas with increasing the number of coincident pulses. [ABSTRACT FROM AUTHOR]

Published
2014
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48. The Normal State Properties of YBaCuZnO Superconductor in Bipolaron Model.

Author

Esmaeili, A., Sedghi, H., Golzan, M., and Amniat-Talab, M.

Subjects
SUPERCONDUCTORS, SUBSTITUTION (Technology), ZINC, BOSONS, TRANSITION temperature
Abstract

We report the effect of Zn Substitution on superconducting and normal state properties of new Y-based YBaCuZnO superconductor. The resistivity of the samples rather shows linear temperature dependence. Two cases of bipolaron model, in presence and absence of thermally excited individual polarons, are used to analyze normal state resistivity. The effect of Zn substitution on carrier localization, transition temperature, boson-boson relaxation time, and extended bosons are discussed. [ABSTRACT FROM AUTHOR]

Published
2011
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49. Fluctuation-induced conductivity and dimensionality in the new Y-based YBaCuO superconductor.

Author

Esmaeili, A., Sedghi, H., Amniat-Talab, M., and Talebian, M.

Subjects
FLUCTUATIONS (Physics), SUPERCONDUCTORS, ELECTRIC conductivity, MEASUREMENT, DIMENSIONS, TEMPERATURE, DYNAMICS
Abstract

The fluctuation conductivity measurement on the new Y-based YBaCuO superconductor is presented. The dimensional crossovers between different temperature regimes were analyzed with Aslamazov-Larkin (AL) theory and a good quantitative agreement was achieved for the experimental data. For our data, the mean field regime is dominated by 2D AL fluctuations. Our results reveal the occurrence of critical fluctuation regime in consistent with the prediction of the full dynamic 3D XY model. We found the dynamical critical exponent to be z = 3.4 for our data. We analyzed also the excess conductivity data by Hikami-Larkin theory and estimated the phase relaxation time. [ABSTRACT FROM AUTHOR]

Published
2011
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