Your search keyword '"Radonjić, M."' showing total 9 results

1. Ehrenfest principle and unitary dynamics of quantum-classical systems with general potential interaction.

Author

Radonjić, M., Popović, D. B., Prvanović, S., and Burić, N.

Subjects

*EHRENFEST'S theorem, *UNITARY dynamics, *QUANTUM mechanics, *HYBRID systems, *PROBLEM solving, *INTERPOLATION

Abstract

Representation of classical dynamics by unitary transformations has been used to develop a unified description of hybrid classical-quantum systems with a particular type of interaction, and to formulate abstract systems interpolating between classical and quantum ones. We solved the problem of a unitary description of two interpolating systems with general potential interaction. The general solution is used to show that with arbitrary potential interaction between the two interpolating systems the evolution of the so-called unobservable variables is decoupled from that of the observable ones if and only if the interpolation parameters in the two interpolating systems are equal. [ABSTRACT FROM AUTHOR]

Published

2014

2. Hybrid quantum-classical models as constrained quantum systems.

Author

Radonjić, M., Prvanović, S., and Burić, N.

Subjects

*QUANTUM theory, *CONSTRAINED optimization, *HAMILTONIAN systems, *PARTIAL differential equations, *MATHEMATICAL analysis, *MATHEMATICAL physics

Abstract

Constrained Hamiltonian description of the classical limit is utilized in order to derive consistent dynamical equations for hybrid quantum-classical systems. Starting with a compound quantum system in the Hamiltonian formulation, conditions for classical behavior are imposed on one of its subsystems and the corresponding hybrid dynamical equations are derived. The presented formalism suggests that the hybrid systems have properties that are not exhausted by those of quantum and classical systems. [ABSTRACT FROM AUTHOR]

Published

2012

3. Emergence of classical behavior from the quantum spin.

Author

Radonjić, M., Prvanović, S., and Burić, N.

Subjects

*QUANTUM theory, *NUCLEAR spin, *CONSTRAINED optimization, *ENERGY levels (Quantum mechanics), *EQUIVALENCE classes (Set theory), *MATHEMATICAL analysis

Abstract

A classical Hamiltonian system of a point moving on a sphere of fixed radius is shown to emerge from the constrained evolution of quantum spin. The constrained quantum evolution corresponds to an appropriate coarse graining of the quantum states into equivalence classes, and forces the equivalence classes to evolve as single units representing the classical states. The coarse-grained quantum spin with the constrained evolution in the limit of the large spin becomes indistinguishable from the classical system. [ABSTRACT FROM AUTHOR]

Published

2012

4. Evolution of dark state of an open atomic system in constant intensity laser field.

Author

Krmpot, A. J., Radonjić, M., Ćuk, S. M., Nikolić, S. N., Grujić, Z. D., and Jelenković, B. M.

Subjects

*MOLECULAR evolution, *ATOMS, *ELECTROMAGNETISM, *LASER beams, *RESONANCE

Abstract

We studied experimentally and theoretically the evolution of open atomic systems in the constant intensity laser field. The study is performed by analyzing the line shapes of Hanle electromagnetically induced transparency (EIT) obtained in different segments of a laser beam cross section of constant intensity, i.e., a Π-shaped laser beam. Such Hanle EIT resonances were measured using a small movable aperture placed just in front of the photodetector, i.e., after the entire laser beam had passed through the vacuum Rb cell. The laser was locked to the open transition Fg = 2 → Fe = 1 at the D1 line of 87Rb with laser intensities between 0.5 and 4 mW/cm². This study shows that the profile of the laser beam determines the processes governing the development of atomic states during the interaction. The resonances obtained near the beam center are narrower than those obtained near the beam edge, but the significant changes of the linewidths occur only near the beam edge, i.e., right after the atom enters the beam. The Hanle EIT resonances obtained near the beam center exhibit two pronounced minima next to the central maximum. The theoretical model reveals that the occurrence of these transmission minima is a joint effect of the preparation of atoms into the dark state and the optical pumping into the uncoupled ground level Fg = 1. The appearance of the transmission minima, although similar to that observed in the wings of a Gaussian beam [A. J. Krmpot et al., Opt. Express 17, 22491 (2009)], is of an entirely different nature for the Π-shaped laser beam. [ABSTRACT FROM AUTHOR]

Published

2011

5. Dark-polariton bound pairs in the modified Jaynes-Cummings-Hubbard model.

Author

Maggitti, A., Radonjić, M., and Jelenković, B. M.

Subjects

*QUANTUM electrodynamics, *JAYNES-Cummings model, *QUANTUM tunneling

Abstract

We investigate a one-dimensional modified Jaynes-Cummings-Hubbard chain of N identical QED cavities with nearest-neighbor photon tunneling and periodic boundary conditions. Each cavity contains an embedded three-level atom which is coupled to a cavity mode and an external classical control field. In the case of two excitations and common large detuning of two Raman-resonant fields, we show the emergence of two different species of dark-polariton bound pairs (DPBPs) that are mutually localized in their relative spatial coordinates. Due to the high degree of controllability, we show the appearance of either one or two DPBPs, having the energies within the energy gaps between three bands of mutually delocalized eigenstates. Interestingly, in a different parameter regime with negatively detuned Raman fields, we find that the ground state of the system is a DPBP which can be utilized for the photon storage, retrieval, and controllable state preparation. Moreover, we propose an experimental realization of our model system. [ABSTRACT FROM AUTHOR]

Published

2016

6. Hybrid quantum-classical model of quantum measurements.

Author

Burić, N., Popović, D. B., Radonjić, M., and Prvanović, S.

Subjects

*QUANTUM measurement, *HAMILTONIAN operator, *QUANTUM states, *QUANTUM statistics, *QUANTUM theory

Abstract

Two types of Hamiltonian hybrid quantum-classical theories are considered as potential models of the quantum measurement process. The two theories have the same Hamiltonian dynamics but differ in the association of states of the quantum system with states of the hybrid model. In the first type of association pure quantum states are modeled by pure states of the hybrid, while in the second type the pure quantum states are modeled by statistical mixtures of the hybrid pure states. It is shown that the second of the two theories describes correctly the quantum measurement while the first provides only an averaged description. [ABSTRACT FROM AUTHOR]

Published

2013

7. Positive-operator-valued measures in the Hamiltonian formulation of quantum mechanics.

Author

Arsenović, D., Burić, N., Popović, D. B., Radonjić, M., and Prvanović, S.

Subjects

*POSITIVE operators, *QUANTUM mechanics, *HAMILTONIAN systems, *HILBERT space, *HERMITIAN operators

Abstract

In the Hilbert space formulation of quantum mechanics, ideal measurements of physical variables are discussed using the spectral theory of Hermitian operators and the corresponding projector-valued measures (PVMs). However, more general types of measurements require the treatment in terms of positive-operator-valued measures (POVMs). In the Hamiltonian formulation of quantum mechanics, canonical coordinates are related to PVM. In this paper the results of an analysis of various aspects of applications of POVMs in the Hamiltonian formulation are reported. Several properties of state parameters and quantum observables given by POVMs or represented in an overcomplete basis, including the general Hamiltonian treatment of the Neumark extension, are presented. An analysis of the phase operator, given by the corresponding POVMs, in the Hilbert space and the Hamiltonian frameworks is also given. [ABSTRACT FROM AUTHOR]

Published

2015

8. Cloning in nonlinear Hamiltonian quantum and hybrid mechanics.

Author

Arsenović, D., Burić, N., Popović, D. B., Radonjić, M., and Prvanović, S.

Subjects

*HAMILTONIAN systems, *QUANTUM mechanics, *NONLINEAR analysis, *CLONING, *QUANTUM theory, *QUANTUM states, *EQUIPMENT & supplies

Abstract

The possibility of state cloning is analyzed in two types of generalizations of quantum mechanics with nonlinear evolution. It is first shown that nonlinear Hamiltonian quantum mechanics does not admit cloning without the cloning machine. It is then demonstrated that the addition of the cloning machine, treated as a quantum or as a classical system, makes cloning possible by nonlinear Hamiltonian evolution. However, a special type of quantum-classical theory, known as the mean-field Hamiltonian hybrid mechanics, does not admit cloning by natural evolution. The latter represents an example of a theory where it appears to be possible to communicate between two quantum systems at superluminal speed, but at the same time it is impossible to clone quantum pure states. [ABSTRACT FROM AUTHOR]

Published

2014

9. Statistical ensembles in the Hamiltonian formulation of hybrid quantum-classical systems.

Author

Burić, N., Mendaš, I., Popović, D. B., Radonjić, M., and Prvanović, S.

Subjects

*STATISTICAL physics, *HAMILTONIAN systems, *QUANTUM theory, *DISTRIBUTION (Probability theory), *PHASE space, *DIFFERENTIAL equations

Abstract

General statistical ensembles in the Hamiltonian formulation of hybrid quantum-classical systems are analyzed. It is argued that arbitrary probability densities on the hybrid phase space must be considered as the class of possible physically distinguishable statistical ensembles of hybrid systems. Nevertheless, statistical operators associated with the hybrid system and with the quantum subsystem can be consistently defined. Dynamical equations for the statistical operators representing the mixed states of the hybrid system and its quantum subsystem are derived and analyzed. In particular, these equations irreducibly depend on the total probability density on the hybrid phase space [ABSTRACT FROM AUTHOR]

Published

2012