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3,930 results on '"REGGE POLES"'

1. Influence of Regge poles on rainbow angular scattering for state-to-state chemical reactions using Heisenberg's S matrix programme.

Author

Shan, Xiao, Xiahou, Chengkui, and Connor, J. N. L.

Subjects
*DIFFERENTIAL cross sections, *CHEMICAL reactions, *RAINBOWS, *S-matrix theory, *ANGULAR momentum (Mechanics)
Abstract

Two powerful theories for state-to-state chemical reactions are brought together for the first time. The first theory incorporates Regge pole positions and residues into the partial wave (PW) scattering (S) matrix. The second theory is a 'weak' version of Heisenberg's Scattering Matrix Programme (wHSMP). It uses four general physical principles to suggest simple parameterised forms for the S matrix. The wHSMP is particularly useful for understanding generic structures in differential cross sections (DCSs). Our initial S matrix parameterisation has no Regge poles, but it exhibits a rainbow in the DCS using a Legendre PW series. We then introduce Regge poles for three examples into the S matrix and investigate their influence on the rainbow scattering. We find that inclusion of Regge poles 'pushes' the rainbow angle to larger values. We also employ Nearside-Farside (NF) PW and Local Angular Momentum PW theories, including up to three resummations. The recently introduced 'CoroGlo' test is used to distinguish between glory and corona scattering in the forward direction. We apply full and NF asymptotic (semiclassical) rainbow theories: the uniform and transitional Airy approximations for the farside scattering. We prove that structure in the no-pole and with-pole DCSs are examples of primary and supernumerary rainbows. [ABSTRACT FROM AUTHOR]

Published
2023
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2. Rigorous Negative Ion Binding Energies in Low-Energy Electron Elastic Collisions with Heavy Multi-Electron Atoms and Fullerene Molecules: Validation of Electron Affinities.

Author

Msezane, Alfred Z. and Felfli, Zineb

Subjects
ELECTRON affinity, BINDING energy, ION energy, ANIONS, COLLISIONS (Nuclear physics), FULLERENES
Abstract

Dramatically sharp resonances manifesting stable negative ion formation characterize Regge pole-calculated low-energy electron elastic total cross sections (TCSs) of heavy multi-electron systems. The novelty of the Regge pole analysis is in the extraction of rigorous and unambiguous negative ion binding energies (BEs), corresponding to the measured electron affinities (EAs) of the investigated multi-electron systems. The measured EAs have engendered the crucial question: is the EA of multi-electron atoms and fullerene molecules identified with the BE of the attached electron in the ground, metastable or excited state of the formed negative ion during a collision? Inconsistencies in the meaning of the measured EAs are elucidated and new EA values for Bk, Cf, Fm, and Lr are presented. [ABSTRACT FROM AUTHOR]

Published
2023
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3. Recent Progress in Low-Energy Electron Elastic-Collisions with Multi-Electron Atoms and Fullerene Molecules †.

Author

Msezane, Alfred Z. and Felfli, Zineb

Subjects
ACTINIDE elements, ATOMS, ELASTIC scattering, COLLISIONS (Nuclear physics), ELECTRONS, FULLERENES
Abstract

We briefly review recent applications of the Regge pole analysis to low-energy 0.0 ≤ E ≤ 10.0 eV electron elastic collisions with large multi-electron atoms and fullerene molecules. We then conclude with a demonstration of the sensitivity of the Regge pole-calculated Ramsauer–Townsend minima and shape resonances to the electronic structure and dynamics of the Bk and Cf actinide atoms, and their first time ever use as novel and rigorous validation of the recent experimental observation that identified Cf as a transitional element in the actinide series. [ABSTRACT FROM AUTHOR]

Published
2022
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4. Rigorous Negative Ion Binding Energies in Low-Energy Electron Elastic Collisions with Heavy Multi-Electron Atoms and Fullerene Molecules: Validation of Electron Affinities

Author

Alfred Z. Msezane and Zineb Felfli

Subjects
Regge poles, generalized bound states, multi-electron atoms, elastic cross sections, anionic binding energies, electron affinities, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

Dramatically sharp resonances manifesting stable negative ion formation characterize Regge pole-calculated low-energy electron elastic total cross sections (TCSs) of heavy multi-electron systems. The novelty of the Regge pole analysis is in the extraction of rigorous and unambiguous negative ion binding energies (BEs), corresponding to the measured electron affinities (EAs) of the investigated multi-electron systems. The measured EAs have engendered the crucial question: is the EA of multi-electron atoms and fullerene molecules identified with the BE of the attached electron in the ground, metastable or excited state of the formed negative ion during a collision? Inconsistencies in the meaning of the measured EAs are elucidated and new EA values for Bk, Cf, Fm, and Lr are presented.

Published
2023
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5. Recent Progress in Low-Energy Electron Elastic-Collisions with Multi-Electron Atoms and Fullerene Molecules

Author

Alfred Z. Msezane and Zineb Felfli

Subjects
Regge poles, generalized bound states, actinide atoms, lanthanide atoms, fullerene molecules, elastic cross sections, Nuclear and particle physics. Atomic energy. Radioactivity, QC770-798
Abstract

We briefly review recent applications of the Regge pole analysis to low-energy 0.0 ≤ E ≤ 10.0 eV electron elastic collisions with large multi-electron atoms and fullerene molecules. We then conclude with a demonstration of the sensitivity of the Regge pole-calculated Ramsauer–Townsend minima and shape resonances to the electronic structure and dynamics of the Bk and Cf actinide atoms, and their first time ever use as novel and rigorous validation of the recent experimental observation that identified Cf as a transitional element in the actinide series.

Published
2022
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9. Reggeons in pQCD

Author

Griffiths, Scott

Subjects
539.72, QUANTUM CHROMODYNAMICS, DEEP INELASTIC SCATTERING, GLUONS, QUARKS, REGGE POLES, FEYNMAN DIAGRAM, COUPLING CONSTANTS, PROPAGATOR, PERTURBATION THEORY
Abstract

We consider the description of deep inelastic scattering by perturbative quantum chromodynamics in the Regge-limit, specifically via the Reggeization of fundamental particles (gluons and quarks) and the description of processes by integro-differential equations such as the BFKL equation. We review the Reggeization of the gluon via Feynman diagrams in the leading-log approximation and then extend this to an original demonstration of the quark's Reggeization. In analogy to the hard Pomeron's description in terms of Reggeized gluons we consider the p-meson's trajectory in terms of the exchange of Reggeized quarks and derive the evolution equation describing this. The solutions of this equation, both analytic and numeric, are then looked at in some detail, and we demonstrate how the low-x behaviour is enhanced. We then make modifications to include a running coupling constant and massive propagators, and investigate the effects that these have on the asymptotics of the p-trajectory.

Published
1999

13. Coupled Minimal Conformal Field Theory Models Revisited

Author

António Antunes and Connor Behan

Subjects
field theory: conformal, chiral [symmetry], family, algebra: Virasoro, Regge poles, General Physics and Astronomy, coupling: minimal, spin, anomalous dimension, symmetry: chiral, minimal [coupling], fixed point: infrared, central charge, infrared [fixed point], Virasoro [algebra], unitarity, ddc:530, conformal [field theory], model: minimal, minimal [model], perturbation theory
Abstract

Physical review letters 130(7), 071602 (2023). doi:10.1103/PhysRevLett.130.071602, We study coupled unitary Virasoro minimal models in the large rank (m→∞) limit. In large m perturbation theory, we find two nontrivial IR fixed points which exhibit irrational coefficients in several anomalous dimensions and the central charge. For N>4 copies, we show that the IR theory breaks all possible currents that would otherwise enhance the Virasoro algebra, up to spin 10. This provides strong evidence that the IR fixed points are examples of compact, unitary, irrational conformal field theories with the minimal amount of chiral symmetry. We also analyze anomalous dimension matrices for a family of degenerate operators with increasing spin. These display further evidence of irrationality and begin to reveal the form of the leading quantum Regge trajectory., Published by APS, College Park, Md.

Published
2023

14. Elastic and diffractive scatterings in the LHC era.

Author

Jenkovszky, László, Schicker, Rainer, and Szanyi, István

Subjects
*DIFFRACTIVE scattering, *PROTONS, *EXTRAPOLATION, *REGGE trajectories
Abstract

We review the elastic and diffractive scatterings of protons (called also the “forward physics”) with emphasis on the LHC data, especially those deviating from the expectations based on extrapolations from earlier measurements at the ISR and Fermilab and thus triggering searches for new ideas, models and theories. We list these new data and provide a brief introduction of available theoretical approaches, mainly those based on analyticity, crossing symmetry and unitarity, particularly the Regge pole model realizing these concepts. Fits to the data are presented and tensions between theoretical predictions and the data that may indicate the way to further progress are in the focus of our paper. [ABSTRACT FROM AUTHOR]

Published
2018
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15. Open superstring first mass level effective Lagrangian: Massive spin-2 in an electromagnetic background

Author

Karim Benakli, Cassiano A. Daniel, Wenqi Ke, and HEP, INSPIRE

Subjects
High Energy Physics - Theory, Nuclear and High Energy Physics, causality, background, superstring, Regge poles, effective Lagrangian, FOS: Physical sciences, field equations, spin, charged particle, High Energy Physics - Phenomenology, High Energy Physics - Phenomenology (hep-ph), electromagnetic, High Energy Physics - Theory (hep-th), dimension, electromagnetic field, open, [PHYS.HTHE] Physics [physics]/High Energy Physics - Theory [hep-th], coupling, string model, minimal
Abstract

Minimal coupling leads to problems such as loss of causality if one wants to describe charged particles of spin greater than one propagating in a constant electromagnetic background. Regge trajectories in string theory contain such states, so their study may allow us to investigate possible avenues to remedy the pathologies. We present here two explicit forms, related by field redefinitions, of the Lagrangian describing the bosonic states in the first massive level of open superstrings in four dimensions. The first one reduces, when the electromagnetic field is set to zero, to the Fierz-Pauli Lagrangian for the spin-2 mode. The second one is a more compact form which simplifies the derivation of a Fierz-Pauli system of equations of motion and constraints., Comment: 11 pages

Published
2023

17. Structures in the diffraction cone: The 'break' and 'dip' in high-energy proton-proton scattering.

Author

Jenkovszky, László and Szanyi, István

Subjects
*PROTON scattering, *MANDELSTAM representation, *SCATTERING (Physics), *LOGARITHMIC functions, *DIFFRACTIVE scattering
Abstract

Anticipating forthcoming publication by the TOTEM collaboration of low- elastic scattering data at = 13 and 2.76 TeV, hereby we emphasize the correlation between two prominent structures seen upon the otherwise exponential diffraction cone, namely a 'break' staying fixed around 0.1 GeV2 and a dip moving with energy logarithmically inwards; while at the ISR, the two structures are separated by a distance of about 1 GeV2, at the LHC, the dip comes close to the periphery of the 'break', thus affecting its parametrization. An unbiased disentangling and identification of the 'break' at the LHC should account for this correlation. [ABSTRACT FROM AUTHOR]

Published
2017
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18. Regge trajectories for the (2, 0) theories

Author

Madalena Lemos, Xiang Zhao, Balt Van Rees, Centre de Physique Théorique [Palaiseau] (CPHT), École polytechnique (X)-Centre National de la Recherche Scientifique (CNRS), and Centre National de la Recherche Scientifique (CNRS)-École polytechnique (X)

Subjects
High Energy Physics - Theory, dimension: 6, Nuclear and High Energy Physics, supersymmetry: multiplet, Regge, FOS: Physical sciences, QC770-798, spin, Conformal and W Symmetry, operator product expansion, 01 natural sciences, multiplet: tensor, High Energy Physics::Theory, conformal, Nuclear and particle physics. Atomic energy. Radioactivity, 0103 physical sciences, structure, correlation function, 0101 mathematics, bootstrap, 010306 general physics, Conformal Field Theory, [PHYS.HTHE]Physics [physics]/High Energy Physics - Theory [hep-th], Regge poles, High Energy Physics::Phenomenology, 010102 general mathematics, analytic properties, High Energy Physics - Theory (hep-th), Nonperturbative Effects, trajectory, tensor: energy-momentum, n-point function: 4
Abstract

We investigate the structure of conformal Regge trajectories for the maximally supersymmetric (2,0) theories in six dimensions. The different conformal multiplets in a single superconformal multiplet must all have similarly-shaped Regge trajectories. We show that these super-descendant trajectories interact in interesting ways, leading to new constraints on their shape. For the four-point function of the stress tensor multiplet supersymmetry also softens the Regge behavior in some channels, and consequently we observe that 'analyticity in spin' holds for all spins greater than -3. All the physical operators in this correlator therefore lie on Regge trajectories and we describe an iterative scheme where the Lorentzian inversion formula can be used to bootstrap the four-point function. Some numerical experiments yield promising results, with OPE data approaching the numerical bootstrap results for all theories with rank greater than one., Comment: 60 pages, 11 figures

Published
2022

19. Coupled Minimal Models Revisited

Author

Leite Antunes, António and Behan, Connor

Subjects
fixed point, infrared, family, Regge poles, symmetry, chiral, central charge, coupling, minimal, unitarity, model, minimal, field theory, conformal, spin, algebra, Virasoro, anomalous dimension, perturbation theory
Abstract

We study coupled unitary Virasoro minimal models in the large rank ($m \rightarrow \infty$) limit. In large $m$ perturbation theory, we find two non-trivial IR fixed points which exhibit irrational coefficients in several anomalous dimensions and the central charge. For $N>4$ copies, we show that the IR theory breaks all possible currents that would otherwise enhance the Virasoro algebra, up to spin 10. This provides strong evidence that the IR fixed points are examples of compact, unitary, irrational CFTs with the minimal amount of chiral symmetry. We also analyze anomalous dimension matrices for a family of degenerate operators with increasing spin. These display further evidence of irrationality and begin to reveal the form of the leading quantum Regge trajectory.

Published
2022
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20. The Green function for the discrete BFKL Pomeron.

Author

Kowalski, H., Lipatov, L. N., and Ross, D. A.

Subjects
*GREEN'S functions, *POMERONS, *BOUNDARY value problems, *INELASTIC scattering, *DEEP inelastic collisions, *REGGE trajectories
Abstract

We describe the (universal) Green function for the discrete BFKL pomeron with running coupling and infrared boundary conditions and discuss the significance of the discrete poles in the case of Deep Inelastic Scattering. [ABSTRACT FROM AUTHOR]

Published
2015
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23. Quasinormal mode frequencies of Kerr black holes from Regge trajectories

Author

Folacci, Antoine, Tamar, Aditya, and Université Pascal Paoli (UPP)

Subjects
High Energy Physics - Theory, semiclassical, eikonal, splitting, [PHYS.HTHE]Physics [physics]/High Energy Physics - Theory [hep-th], Regge poles, FOS: Physical sciences, General Relativity and Quantum Cosmology (gr-qc), stability, General Relativity and Quantum Cosmology, electromagnetic, High Energy Physics - Theory (hep-th), trajectory, black hole: Kerr, quasinormal mode: frequency, [PHYS.GRQC]Physics [physics]/General Relativity and Quantum Cosmology [gr-qc], photon: sphere, Teukolsky equation, symmetry: rotation, black hole: Schwarzschild, numerical calculations, frequency: spectrum, perturbation: gravitation, geodesic
Abstract

A large portion of the studies concerning the quasinormal mode frequencies of a Kerr black hole have focused only on achieving higher numerical accuracy with limited emphasis on providing their physical interpretation. In this article, we partially address this issue by computing the quasinormal mode frequency spectrum of a Kerr black hole using the theory of Regge poles. By considering the retarded Green's function of the Teukolsky equation, we establish for scalar, electromagnetic and gravitational perturbations an equation linking the Regge poles to the quasinormal frequencies and we solve it in the high-frequency regime to get "semiclassical" relations permitting us to obtain the complex frequencies of the weakly damped quasinormal modes from the Regge trajectories. Numerical results concerning gravitational perturbations ($s=-2$) are displayed. They are in excellent agreement with the "exact" ones in the eikonal regime $(\ell \gg 1)$ and in very good agreement even for lower values of $\ell$. Moreover, the splitting of each Regge pole of the Schwarzschild black hole into an infinite number of Kerr Regge poles explains the breaking of the azimuthal degeneracy of the quasinormal frequencies of the Schwarzschild black hole due to rotation. Our work is a first step to extend to Kerr black holes the approach developed for static spherically symmetric black holes which allowed, from a geometrical interpretation of the Regge poles in terms of the properties of the unstable circular null geodesics lying on the photon sphere, to derive accurate analytical formulas for the Regge trajectories and, as a by-product, for the complex frequencies of the weakly damped quasinormal modes.

Published
2021

25. The Regge limit of AdS$_{3}$ holographic correlators with heavy states: towards the black hole regime

Author

Nejc Ceplak, Marcel R. R. Hughes, Institut de Physique Théorique - UMR CNRS 3681 (IPHT), and Commissariat à l'énergie atomique et aux énergies alternatives (CEA)-Université Paris-Saclay-Centre National de la Recherche Scientifique (CNRS)

Subjects
High Energy Physics - Theory, Nuclear and High Energy Physics, FOS: Physical sciences, QC770-798, AdS-CFT Correspondence, 01 natural sciences, operator product expansion, Conformal dimension, Theoretical physics, phase shift, Operator (computer programming), Nuclear and particle physics. Atomic energy. Radioactivity, 0103 physical sciences, Black Holes in String Theory, black hole, Operator product expansion, correlation function, 010306 general physics, Physics, Conformal Field Theory, 010308 nuclear & particles physics, Conformal field theory, [PHYS.HTHE]Physics [physics]/High Energy Physics - Theory [hep-th], Regge poles, Conical surface, duality: holography, Black hole, AdS/CFT correspondence, High Energy Physics - Theory (hep-th), AdS(3) x S(3), dimension: conformal, n-point function: 4, Central charge
Abstract

We examine the Regge limit of holographic 4-point correlation functions in AdS$_3\times S^3$ involving two heavy and two light operators. In this kinematic regime such correlators can be reconstructed from the bulk phase shift accumulated by the light probe as it traverses the geometry dual to the heavy operator. We work perturbatively -- but to arbitrary orders -- in the ratio of the heavy operator's conformal dimension to the dual CFT${}_2$'s central charge, thus going beyond the low order results of arXiv:1812.03120 and arXiv:2007.12118. In doing so, we derive all-order relations between the bulk phase shift and the Regge limit OPE data of a class of heavy-light multi-trace operators exchanged in the cross-channel. Furthermore, we analyse two examples for which the relevant 4-point correlators are known explicitly to all orders: firstly the case of heavy operators dual to AdS${}_3$ conical defect geometries and secondly the case of non-trivial smooth geometries representing microstates of the two-charge D1-D5 black hole., Comment: 34 pages, 2 figures, v2 - added references

Published
2021

26. Deeply virtual Compton scattering and generalized parton distributions.

Author

Fazio, S., Fiore, R., and Jenkovszky, L. L.

Subjects
*PARTICLES (Nuclear physics), *SCATTERING (Physics), *COMPTON effect, *COLLISIONS (Nuclear physics), *PARTONS
Abstract

We present a comparison of a recently proposed model, which describes the Deeply Virtual Compton Scattering amplitude, to the HERA data. [ABSTRACT FROM AUTHOR]

Published
2009
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