Bismuth activation cross sections for high energy neutrons

Abstract Using modern multiloop calculation methods, we derive the analytical expressions for the total cross sections of the processes e−γ →$$ {e}^{-}X\overline{X} $$ e − X X ¯ with X = μ, γ or e at arbitrary energies. For the first two processes our results are expressed via classical polylogarithms. The cross section of e−γ → e−e−e+ is represented as a one-fold integral of complete elliptic integral K and logarithms. Using our results, we calculate the threshold and high-energy asymptotics and compare them with available results.

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SPALLATION YIELDS FROM HIGH ENERGY PROTON BOMBARDMENT OF HEAVY ELEMENTS

Canadian Journal of Physics ◽

10.1139/p57-003 ◽

1957 ◽

Vol 35 (1) ◽

pp. 21-37 ◽

Cited By ~ 15

Author(s):

J. D. Jackson

Keyword(s):

Cross Sections ◽

High Energy ◽

Heavy Elements ◽

Collective Effects ◽

Comparison With Experiment ◽

Energy Proton ◽

Stringent Test ◽

Neutron Evaporation ◽

Nuclear Processes ◽

Mev Protons

The Monte Carlo calculations of McManus and Sharp (unpublished) for the prompt nuclear processes occurring upon bombardment of heavy elements by 400 Mev. protons are combined with a description of the subsequent neutron evaporation to determine spallation cross sections for comparison with experiment. The model employed is a schematic one which suppresses the detailed characteristics of individual nuclei, but gives the over-all behavior to be expected. Many-particle and collective effects such as alpha particle emission and fission are ignored. The computed cross sections are presented in a variety of different graphical forms which illustrate quantitatively the qualitative picture of high energy reactions first given by Serber (1947). The calculations are in general agreement with existing data when fission is not an important effect, but the agreement does not imply a very stringent test of the various features of the model.

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Vector boson fusion at multi-TeV muon colliders

Journal of High Energy Physics ◽

10.1007/jhep09(2020)080 ◽

2020 ◽

Vol 2020 (9) ◽

Author(s):

Antonio Costantini ◽

Federico De Lillo ◽

Fabio Maltoni ◽

Luca Mantani ◽

Olivier Mattelaer ◽

...

Keyword(s):

Cross Sections ◽

Vector Boson ◽

High Energy ◽

New Physics ◽

Vector Boson Fusion ◽

Weak Boson ◽

Wide Range ◽

Lepton Colliders ◽

Muon Colliders ◽

New Phenomena

Abstract High-energy lepton colliders with a centre-of-mass energy in the multi-TeV range are currently considered among the most challenging and far-reaching future accelerator projects. Studies performed so far have mostly focused on the reach for new phenomena in lepton-antilepton annihilation channels. In this work we observe that starting from collider energies of a few TeV, electroweak (EW) vector boson fusion/scattering (VBF) at lepton colliders becomes the dominant production mode for all Standard Model processes relevant to studying the EW sector. In many cases we find that this also holds for new physics. We quantify the size and the growth of VBF cross sections with collider energy for a number of SM and new physics processes. By considering luminosity scenarios achievable at a muon collider, we conclude that such a machine would effectively be a “high-luminosity weak boson collider,” and subsequently offer a wide range of opportunities to precisely measure EW and Higgs couplings as well as discover new particles.

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Saturation effects in SIDIS at very forward rapidities

Journal of High Energy Physics ◽

10.1007/jhep07(2021)196 ◽

2021 ◽

Vol 2021 (7) ◽

Author(s):

E. Iancu ◽

A. H. Mueller ◽

D. N. Triantafyllopoulos ◽

S. Y. Wei

Keyword(s):

Inelastic Scattering ◽

Cross Section ◽

Cross Sections ◽

Virtual Photon ◽

Large Fraction ◽

Quark Distribution ◽

High Energy ◽

Longitudinal Momentum ◽

Black Disk ◽

Gluon Saturation

Abstract Using the dipole picture for electron-nucleus deep inelastic scattering at small Bjorken x, we study the effects of gluon saturation in the nuclear target on the cross-section for SIDIS (single inclusive hadron, or jet, production). We argue that the sensitivity of this process to gluon saturation can be enhanced by tagging on a hadron (or jet) which carries a large fraction z ≃ 1 of the longitudinal momentum of the virtual photon. This opens the possibility to study gluon saturation in relatively hard processes, where the virtuality Q2 is (much) larger than the target saturation momentum $$ {Q}_s^2 $$ Q s 2 , but such that z(1 − z)Q2 ≲ $$ {Q}_s^2 $$ Q s 2 . Working in the limit z(1 − z)Q2 ≪ $$ {Q}_s^2 $$ Q s 2 , we predict new phenomena which would signal saturation in the SIDIS cross-section. For sufficiently low transverse momenta k⊥ ≪ Qs of the produced particle, the dominant contribution comes from elastic scattering in the black disk limit, which exposes the unintegrated quark distribution in the virtual photon. For larger momenta k⊥ ≳ Qs, inelastic collisions take the leading role. They explore gluon saturation via multiple scattering, leading to a Gaussian distribution in k⊥ centred around Qs. When z(1 − z)Q2 ≪ Q2, this results in a Cronin peak in the nuclear modification factor (the RpA ratio) at moderate values of x. With decreasing x, this peak is washed out by the high-energy evolution and replaced by nuclear suppression (RpA< 1) up to large momenta k⊥ ≫ Qs. Still for z(1 − z)Q2 ≪ $$ {Q}_s^2 $$ Q s 2 , we also compute SIDIS cross-sections integrated over k⊥. We find that both elastic and inelastic scattering are controlled by the black disk limit, so they yield similar contributions, of zeroth order in the QCD coupling.

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