Your search keyword '"Tabakin, Frank"' showing total 13 results

1. Model Dynamics for Quantum Computing

Author

Tabakin, Frank

Subjects

Quantum Physics, Mathematical Physics

Abstract

A model master equation suitable for quantum computing dynamics is presented. In an ideal quantum computer (QC), a system of qubits evolves in time unitarily and, by virtue of their entanglement, interfere quantum mechanically to solve otherwise intractable problems. In the real situation, a QC is subject to decoherence and attenuation effects due to interaction with an environment and with possible short-term random disturbances and gate deficiencies. The stability of a QC under such attacks is a key issue for the development of realistic devices. We assume that the influence of the environment can be incorporated by a master equation that includes unitary evolution with gates, supplemented by a Lindblad term. Lindblad operators of various types are explored; namely, steady, pulsed, gate friction, and measurement operators. In the master equation, we use the Lindblad term to describe short time intrusions by random Lindblad pulses. The phenomenological master equation is then extended to include a nonlinear Beretta term that describes the evolution of a closed system with increasing entropy, plus a Bath environment term stipulated by a fixed temperature. Here we explore the case of a simple one-qubit system in preparation for generalization to multi-qubit, qutrit and hybrid qubit-qutrit systems. This model master equation can be used to test the stability of memory and the efficacy of quantum gates. The properties of such hybrid master equations are explored, with emphasis on the role of thermal equilibrium and entropy constraints., Comment: F. Tabakin, Model dynamics for quantum computing, Annals of Physics (2017)

Published

2016

2. QCWAVE, a Mathematica quantum computer simulation update

Author

Tabakin, Frank and Julia-Diaz, Bruno

Subjects

Quantum Physics

Abstract

This Mathematica 7.0/8.0 package upgrades and extends the quantum computer simulation code called QDENSITY. Use of the density matrix was emphasized in QDENSITY, although that code was also applicable to a quantum state description. In the present version, the quantum state version is stressed and made amenable to future extensions to parallel computer simulations. The add-on QCWAVE extends QDENSITY in several ways. The first way is to describe the action of one, two and three- qubit quantum gates as a set of small ($2 \times 2, 4\times 4$ or $8\times 8$) matrices acting on the $2^{n_q}$ amplitudes for a system of $n_q$ qubits. This procedure was described in our parallel computer simulation QCMPI and is reviewed here. The advantage is that smaller storage demands are made, without loss of speed, and that the procedure can take advantage of message passing interface (MPI) techniques, which will hopefully be generally available in future Mathematica versions. Another extension of QDENSITY provided here is a multiverse approach, as described in our QCMPI paper. This multiverse approach involves using the present slave-master parallel processing capabilities of Mathematica 7.0/8.0 to simulate errors and error correction. The basic idea is that parallel versions of QCWAVE run simultaneously with random errors introduced on some of the processors, with an ensemble average used to represent the real world situation. Within this approach, error correction steps can be simulated and their efficacy tested. This capability allows one to examine the detrimental effects of errors and the benefits of error correction on particular quantum algorithms., Comment: package available at http://www.pitt.edu/~tabakin/QW/

Published

2011

3. Mixing of the $f_0$ and $a_0$ scalar mesons in threshold photoproduction

Author

Kerbikov, Boris and Tabakin, Frank

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

We examine the photoproduction of the light scalar mesons $f_0$-$a_0 (980)$ with emphasis on isospin-violating $f_0$ and $a_0$ mixing due to the mass difference between neutral and charged kaons. General forms for the invariant amplitude for scalar meson photoproduction are derived, which yield expressions for the invariant mass distribution of the final meson pairs. A final state interaction form factor is obtained which incorporates $f_0$ and $a_0$ mesons, $K\bar K$ threshold effects, and $f_0-a_0$ mixing. This form factor is applied to predict the effective mass distribution of the $\pi\pi$ and $K\bar K$ pairs in the vicinity of the $K\bar K$ threshold. An estimate of the role of isospin mixing near threshold is provided. The potential role of polarized photons and protons is also discussed., Comment: 20 pages, 5 figures

Published

2000

4. Constraints on vector meson photoproduction spin observables

Author

Kloet, W. M. and Tabakin, Frank

Subjects

Nuclear Theory

Abstract

Extraction of spin observables from vector meson photoproduction on a nucleon target is described. Starting from density matrix elements in the vector meson's rest frame, we transform to spin observables in the photon-nucleon c.m. frame. Several constraints on the transformed density matrix and on the spin observables follow from requiring that the angular distribution and the density matrix be positive definite. A set of constraints that are required in order to extract meaningful spin observables from forthcoming data are enunciated., Comment: 16 pages 6 figures

Published

1999

5. Spin Information from Vector-Meson Decay in Photoproduction

Author

Kloet, W. M., Chiang, Wen-Tai, and Tabakin, Frank

Subjects

Nuclear Theory

Abstract

For the photoproduction of vector mesons, all single and double spin observables involving vector meson two-body decays are defined consistently in the $\gamma N$ center of mass. These definitions yield a procedure for extracting physically meaningful single and double spin observables that are subject to known rules concerning their angle and energy evolution. As part of this analysis, we show that measuring the two-meson decay of a photoproduced $\rho$ or $\phi$ does not determine the vector meson's vector polarization, but only its tensor polarization. The vector meson decay into lepton pairs is also insensitive to the vector meson's vector polarization, unless one measures the spin of one of the leptons. Similar results are found for all double spin observables which involve observation of vector meson decay. To access the vector meson's vector polarization, one therefore needs to either measure the spin of the decay leptons, make an analysis of the background interference effects or relate the vector meson's vector polarization to other accessible spin observables., Comment: 22 pages, 3 figures

Published

1998

6. Quark-Antiquark Bound States within a Dyson-Schwinger Bethe-Salpeter Formalism

Author

Savkli, Cetin and Tabakin, Frank

Subjects

High Energy Physics - Phenomenology, Nuclear Theory

Abstract

Pion and kaon observables are calculated using a Dyson-Schwinger Bethe-Salpeter formalism. It is shown that an infrared finite gluon propagator can lead to quark confinement via generation of complex mass poles in quark propagators. Observables, including electromagnetic form factors, are calculated entirely in Euclidean metric for spacelike values of bound state momentum and final results are extrapolated to the physical region., Comment: Minor typographical corrections. Accepted for publication in Nucl. Phys. A

Published

1997

7. Completeness Rules for Spin Observables in Pseudoscalar Meson Photoproduction

Author

Chiang, Wen-Tai and Tabakin, Frank

Subjects

Nuclear Theory

Abstract

The number and type of measurements needed to ascertain the amplitudes for pseudoscalar meson photoproduction are analyzed in this paper. It is found that 8 carefully selected measurements can determine the four transversity amplitudes without discrete ambiguities. That number of measurements is one less than previously believed. We approach this problem in two distinct ways: (1) solving for the amplitude magnitudes and phases directly; and (2) using a bilinear helicity product formulation to map an algebra of measurements over to the well-known algebra of the $4\times 4$ Gamma matrices. It is shown that the latter method leads to an alternate proof that 8 carefully chosen experiments suffice for determining the transversity amplitudes completely. In addition, Fierz transformations of the Gamma matrices are used to develop useful linear and nonlinear relationships between the spin observables. These relationships not only help in finding complete sets of experiments, but also yield important constraints between the 16 observables for this reaction., Comment: 32 pages, no figures, LaTeX/REVTeX, submitted to Phys. Rev. C, typos corrected

Published

1996

8. Pseudoscalar meson photoproduction: from known to undiscovered resonances

Author

Saghai, Bijan and Tabakin, Frank

Subjects

Nuclear Theory

Abstract

The role of dynamics in spin observables for pseudoscalar meson photoproduction is investigated using a density matrix approach in a multipole truncated framework. Extraction of novel rules for $\gamma p \rightarrow \pi^+ n,~ K^+ \Lambda$ and $\eta p$ reactions based on resonance dominance, and on other broad and reasonable dynamical assumptions, are discussed. Observables that are particularly sensitive to missing nucleonic resonances predicted by quark-based approaches, are singled out., Comment: 22 pages, latex, 3 figures

Published

1996

9. Multipole analysis of spin observables in vector meson photoproduction

Author

Savkli, Cetin, Tabakin, Frank, and Yang, Shin Nan

Subjects

Nuclear Theory

Abstract

A multipole analysis of vector meson photoproduction is formulated as a generalization of the pseudoscalar meson case. Expansion of spin observables in the multipole basis and behavior of these observables near threshold and resonances are examined., Comment: 15 pages, latex, 2 figures

Published

1995

10. Nodal trajectories of spin observables and kaon photoproduction dynamics

Author

Saghai, Bijan and Tabakin, Frank

Subjects

Nuclear Theory

Abstract

Spin observables for the reaction $\gamma p \rightarrow K^+ \Lambda$ are examined using three recent dynamical models and are compared to the general features of such observables deduced earlier by Fasano, Tabakin and Saghai. These general features, such as the energy dependence of spin observables and the location of nodes in their angle dependence, are realized. Several instructive surprises, which occur in this comparison to the conjectures of Fasano et al., are then discussed. The sensitivity of spin observables to isobar and {\it t-}channel dynamics is analyzed and suggestions for selecting experiments which provide important dynamical information are presented., Comment: 22 pages, latex, 10 figures

Published

1995

11. Polarization observables in vector meson photoproduction

Author

Pichowsky, Michael, Savkli, Cetin, and Tabakin, Frank

Subjects

Nuclear Theory, High Energy Physics - Phenomenology

Abstract

An analysis of all possible polarization observables for the case of vector meson photoproduction from a nucleon target is presented. The question of which observables are needed to determine completely the basic photoproduction amplitudes and the relationships between spin observables are addressed., Comment: 37 pages, latex, 3 figures

Published

1995

12. Spin observables in pseudoscalar meson photoproduction

Author

Tabakin, Frank and Bijan Saghai

Subjects

Particle Physics - Phenomenology

13. Nodal trajectories and kaon photoproduction

Author

Bijan Saghai and Tabakin, Frank

Subjects

Particle Physics - Phenomenology