Electron–positron pair production by photons: A historical overview

Hubbell, J.H.

doi:10.1016/j.radphyschem.2005.10.008

Cited by 69 publications

(41 citation statements)

References 149 publications

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“…This is in mild tension with earlier results from CRESST-II [62], both in the analysis provided by the CRESST collaboration [63] and in the analysis by A. Brown et al [135], as they partially exclude the potential WIMP signals from [63]. To investigate this situation further, the experiment was recently upgraded to reduce the still high background contribution: depending on the chosen likelihood maximum, a background of 37.6 events or 42.8 events remains, mainly recoiling nuclei and α-particles from α-decay [63].…”

Section: Cryogenic Crystal Detectorscontrasting

confidence: 43%

Production Yield of Muon-Induced Neutrons in Lead

Kluck

2015

Springer Theses

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The series "Springer Theses" brings together a selection of the very best Ph.D. theses from around the world and across the physical sciences. Nominated and endorsed by two recognized specialists, each published volume has been selected for its scientific excellence and the high impact of its contents for the pertinent field of research. For greater accessibility to non-specialists, the published versions include an extended introduction, as well as a foreword by the student's supervisor explaining the special relevance of the work for the field. As a whole, the series will provide a valuable resource both for newcomers to the research fields described, and for other scientists seeking detailed background information on special questions. Finally, it provides an accredited documentation of the valuable contributions made by today's younger generation of scientists.Theses are accepted into the series by invited nomination only and must fulfill all of the following criteria • They must be written in good English.• The topic should fall within the confines of Chemistry, Physics, Earth Sciences, Engineering and related interdisciplinary fields such as Materials, Nanoscience, Chemical Engineering, Complex Systems and Biophysics.

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Section: Cryogenic Crystal Detectorscontrasting

confidence: 43%

Production Yield of Muon-Induced Neutrons in Lead

Kluck

2015

Springer Theses

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“…A similar statement applies to electromagnetic waves: electron-positron pairs cannot be produced by plane electromagnetic waves, no matter how strong we make the electromagnetic field [17]; otherwise momentum conservation would be violated. However, pair production of electrons and positrons is possible if a nucleus is introduced to balance the momentum [18].…”

Section: Introductionmentioning

confidence: 99%

Black hole squeezers

Mann

et al. 2017

Phys. Rev. D

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We show that the gravitational quasinormal modes (QNMs) of a Schwarzschild black hole play the role of a multimode squeezer that can generate particles. For a minimally coupled scalar field, the QNMs "squeeze" the initial state of the scalar field (even for the vacuum) and produce scalar particles. The maximal squeezing amplitude is inversely proportional to the cube of the imaginary part of the QNM frequency, implying that the particle generation efficiency is higher for lower decaying QNMs. Our results show that the gravitational perturbations can amplify Hawking radiation.

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“…[32,33] were obtained only for ω < 5M eV . In a set of later publications [34,35,36,37] (see also reviews [38,39]) the magnitude of σ γA (ω) has been obtained for higher values of ω and several Z A . In the high-energy region ω ≫ m, the consideration is greatly simplified.…”

Section: Rn Lee and Ai Milsteinmentioning

confidence: 94%

Strong suppression of Coulomb corrections to the e + e − pair production cross section in ultrarelativistic nuclear collisions

Lee

Milstein

2009

J. Exp. Theor. Phys.

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The Coulomb corrections to the cross section of e + e − pair production in ultrarelativistic nuclear collisions are calculated in the next-to-leading approximation with respect to the parameter L = ln γAγB (γA,B are the Lorentz factors of colliding nuclei). We found considerable reduction of the Coulomb corrections even for large γAγB due to the suppression of the production of e + e − pair with the total energy of the order of a few electron masses in the rest frame of one of the nuclei. Our result explains why the deviation from the Born result were not observed in the experiment at SPS [1, 2].PACS numbers: 25.75. Dw, 25.20.Lj, 34.90.+q Electron-positron pair production in ultrarelativistic nuclear collisions is investigated intensively during almost two last decades, see recent reviews [3,4]. This process is important in the problem of beam lifetime and luminocity of hadron colliders. It is also a serious background for many experiments because of its large cross section. For heavy nuclei, the effect of higher-order terms (Coulomb corrections) of the perturbation theory with respect to the parameters Z A α and Z B α can be very important (Z A and Z B are the charge numbers of the nuclei A and

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Electron–positron pair production by photons: A historical overview

Cited by 69 publications

References 149 publications

Production Yield of Muon-Induced Neutrons in Lead

Production Yield of Muon-Induced Neutrons in Lead

Black hole squeezers

Strong suppression of Coulomb corrections to the e + e − pair production cross section in ultrarelativistic nuclear collisions

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