Your search keyword '"*T-matrix"' showing total 4 results

1. Thermodynamics of the quark-gluon plasma within a T-matrix approach.

Author

Lacroix, Gwendolyn, Semay, Claude, and Buisseret, Fabien

Subjects

*QUARK-gluon plasma, *THERMODYNAMICS, *T-matrix, *EQUATIONS of state, *BARYONS, *BOUND states

Abstract

The strongly coupled phase of the quark-gluon plasma (QGP) is studied here by resorting to a T-matrix formulation in which the medium is seen as a nonideal gas of quasiparticles (quarks, antiquarks, and gluons) interacting nonpertubatively. In the temperature range under study, (1-5)Tc, where Tc is the temperature of deconfinement, the interactions are expected to be strong enough to generate bound states. The dissociation temperature of such binary bound states is thus computed here. The more the quasiparticles involved in the binary system are heavy, the more the bound state is likely to survive significantly above Tc. Then the QGP equations of state at zero and small baryonic potential are computed for Nf = 2 and Nf = 2 + 1 by resorting to the Dashen, Ma, and Bernstein formulation of statistical mechanics. Comparisons with current lattice QCD data are presented. [ABSTRACT FROM AUTHOR]

Published

2015

2. Two-body scattering states in Minkowski space and the Nakanishi integral representation onto the null plane.

Author

Frederico, T., Salmè, G., and Viviani, M.

Subjects

*TWO-body problem (Physics), *SCATTERING (Physics), *MINKOWSKI space, *QUANTUM perturbations, *INTEGRAL representations, *T-matrix, *BOUND states, *APPROXIMATION theory

Abstract

The Nakanishi perturbative integral representation of the four-dimensional T-matrix is investigated in order to get a workable treatment for scattering states, solutions of the inhomogeneous Bethe-Salpeter Equation, in Minkowski space. The projection onto the null-plane of the four-dimensional inhomogeneous Bethe-Salpeter Equation plays a key role for devising an equation for the Nakanishi weight function (a real function), as in the homogeneous case that corresponds to bound states and it has been already studied within different frameworks. In this paper, the whole formal development is illustrated in detail and applied to a system, composed by two massive scalars interacting through the exchange of a massive scalar. The explicit expression of the scattering integral equations are also obtained in ladder approximation, and, as simple applications of our formalism, some limiting cases, like the zero-energy limit and the Wick-Cutkosky model in the continuum, are presented. [ABSTRACT FROM AUTHOR]

Published

2012

3. Nonperturbative enhancement of heavy quark-antiquark pair annihilation in the quark-gluon plasma.

Author

Xin Wu and Min He

Subjects

*BOUND states, *QUARK-gluon plasma, *GREEN'S functions, *ANNIHILATION reactions, *THERMAL equilibrium, *DARK matter, *PARTICLE interactions, *T-matrix

Abstract

The annihilation of heavy particles close to thermal equilibrium, which plays a prominent role in the chemical equilibration of heavy quarks in the quark-gluon plasma (QGP) as well as in many classic dark matter scenarios, is reexamined. We derive a scattering amplitude that resums near-threshold attractive interaction of the annihilating particles in terms of the nonrelativistic scattering T-matrix and Green's function, thereby capturing the pertinent Sommerfeld enhancement from both nonperturbative scattering state and bound state solutions. The derived formula is of such generality that it applies to arbitrary partial wave processes of two-particle annihilation, and enables us to incorporate finite widths of the annihilating particles. In a screened potential model, the nonperturbative scattering amplitude is computed and the Sommerfeld enhancement is identified for heavy quark-antiquark annihilation in the QGP. [ABSTRACT FROM AUTHOR]

Published

2020

4. Skyrmion-induced bound states in a superconductor.

Author

Pershoguba, Sergey S., Sho Nakosai, and Balatsky, Alexander V.

Subjects

*BOUND states, *SUPERCONDUCTORS, *T-matrix, *SPIN polarization, *DENSITY of states, *WAVE functions

Abstract

We consider a superconductor proximity coupled to a two-dimensional ferromagnetic film with a skyrmion texture. Using the T-matrix calculations and numerical modeling we calculate the spin-polarized local density of states in the superconductor in the vicinity of the skyrmion. We predict the skyrmion bound states that are induced in the superconductor, similar to the well-known Yu-Shiba-Rusinov states. The bound-state wave functions have spatial power-law decay. It is suggested that superconductivity could facilitate an effective long-range interaction between skyrmions when bound-state wave functions overlap. [ABSTRACT FROM AUTHOR]

Published

2016