Mario Belloni scite author profile

In this work, we prove a previously published conjecture that a prescription we gave for constructing states that implement Gauss's law for 'pure glue' QCD is correct. We also construct a unitary transformation that extends this prescription so that it produces additional states that implement Gauss's law for QCD with quarks as well as gluons. Furthermore, we use the mathematical apparatus developed in the course of this work to construct gauge-invariant spinor (quark) and gauge (gluon) field operators. We adapt this SU (3) construction for the SU (2) Yang-Mills case, and we consider the dynamical implications of these developments.

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Wigner quasi-probability distribution for the infinite square well: Energy eigenstates and time-dependent wave packets

Belloni

Doncheski

Robinett

2004

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We calculate the Wigner quasi-probability distribution for position and momentum, P (n) W (x, p), for the energy eigenstates of the standard infinite well potential, using both x-and p-space stationary-state solutions, as well as visualizing the results. We then evaluate the time-dependent Wigner distribution, P W (x, p; t), for Gaussian wave packet solutions of this system, illustrating both the short-term semi-classical time dependence, as well as longer-term revival and fractional revival behavior and the structure during the collapsed state. This tool provides an excellent way of demonstrating the patterns of highly correlated Schrödinger-cat-like 'mini-packets' which appear at fractional multiples of the exact revival time.

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Gauss's law, gauge invariance, and long-range forces in QCD

1997

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We use a unitary operator constructed in earlier work to transform the Hamiltonian for QCD in the temporal ($A_0=0$) gauge into a representation in which the quark field is gauge-invariant, and its elementary excitations -- quark and antiquark creation and annihilation operators -- implement Gauss's law. In that representation, the interactions between gauge-dependent parts of the gauge field and the spinor (quark) field have been transformed away and replaced by long-range non-local interactions of quark color charge densities. These long-range interactions connect SU(3) color charge densities through an infinite chain of gauge-invariant gauge fields either to other SU(3) color charge densities, or to a gluon "anchor". We discuss possible implications of this formalism for low-energy processes, including confinement of quarks that are not in color singlet configurations.Comment: 9 pages, LaTeX, uses REVTe

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Mario Belloni

Improving students’ understanding of quantum mechanics

The infinite well and Dirac delta function potentials as pedagogical, mathematical and physical models in quantum mechanics

Gauss’s law and gauge-invariant operators and states in QCD

Wigner quasi-probability distribution for the infinite square well: Energy eigenstates and time-dependent wave packets

Gauss's law, gauge invariance, and long-range forces in QCD

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