Bremsstrahlung Cross-Section Formulas and Related Data

“…Figure 3 shows an example candidate Michel electron from data where energy deposited via ionization and radiative photons are clearly distinguishable from each other. Bremsstrahlung-photon production [23] has a significant impact on the topology of Michel electrons in liquid argon. Photons are created via bremsstrahlung stochastically: case-by-case, the number of photons produced by an electron as it travels in the detector and the energy distribution of these photons will vary significantly.…”

“…We describe the features and challenges of this reconstruction in the following sections. We show that Michel electrons manifest themselves with a complex topology caused by the stochastic release of bremsstrahlung photons [23], which can disperse significantly and carry away a considerable fraction of the electron's energy. Due to the 14 cm radiation length in argon [24] (corresponding to 47 anode-plane wires), and the relatively slow drift-velocity in the MicroBooNE TPC, collecting the total charge deposited by Michel electrons is made more challenging by the need to identify the charge of bremsstrahlung photons.…”

Michel electron reconstruction using cosmic-ray data from the MicroBooNE LArTPC

“…Figure 3 shows an example candidate Michel electron from data where energy deposited via ionization and radiative photons are clearly distinguishable from each other. Bremsstrahlung-photon production [23] has a significant impact on the topology of Michel electrons in liquid argon. Photons are created via bremsstrahlung stochastically: case-by-case, the number of photons produced by an electron as it travels in the detector and the energy distribution of these photons will vary significantly.…”

“…We describe the features and challenges of this reconstruction in the following sections. We show that Michel electrons manifest themselves with a complex topology caused by the stochastic release of bremsstrahlung photons [23], which can disperse significantly and carry away a considerable fraction of the electron's energy. Due to the 14 cm radiation length in argon [24] (corresponding to 47 anode-plane wires), and the relatively slow drift-velocity in the MicroBooNE TPC, collecting the total charge deposited by Michel electrons is made more challenging by the need to identify the charge of bremsstrahlung photons.…”

Michel electron reconstruction using cosmic-ray data from the MicroBooNE LArTPC

“…Перенос быстрых элек-тронов рассчитывался методом [17]. Дифференциальное макроскопическое сечение рождения тормозных квантов описывалось формулами [18,19]. Перенос тормозных квантов в поглотителе описывался кинетическим урав-нением без учета рассеяния с использованием таблиц коэффициентов ослабления [20].…”

Радиационная Электропроводность Нанокомпозиционных Материалов

“…The GB properties are theoretically well known [9]: similarly to the SB case, the maximum energy that a photon can assume is ω 2 and the total angular aperture of the emission cone is ~E rmu −1 . For these reasons, the same experimental set-up for SB can be directly used for detecting the GB photons and for measuring their energy spectrum.…”

“…From expression 3CS of reference [9] it is possible to derive the GB differential crosssection to be used in the case of DAΦNE:…”

Single Bremsstrahlung luminosity measurements at DAΦNE