R.G. Lang
University of São Paulo
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Featured researches published by R.G. Lang.
Astroparticle Physics | 2017
T. Hassan; L. Arrabito; K. Bernlöhr; Johan Bregeon; J. Cortina; P. Cumani; F. Di Pierro; D. Falceta-Goncalves; R.G. Lang; J. A. Hinton; T. Jogler; G. Maier; A. Moralejo; A. Morselli; C. J. Todero Peixoto; M. Wood
The Cherenkov Telescope Array (CTA) represents the next generation of ground-based instruments for very-high-energy (VHE) gamma-ray astronomy, aimed at improving on the sensitivity of current-generation experiments by an order of magnitude and providing coverage over four decades of energy. The current CTA design consists of two arrays of tens of imaging atmospheric Cherenkov Telescopes, comprising Small, Medium and Large-Sized Telescopes, with one array located in each of the Northern and Southern Hemispheres. To study the effect of the site choice on the overall CTA performance and support the site evaluation process, detailed Monte Carlo simulations have been performed. These results show the impact of different site-related attributes such as altitude, night-sky background and local geomagnetic field on CTA performance for the observation of VHE gamma rays.
Journal of Physics: Conference Series | 2017
R.G. Lang; V. de Souza; Vitor de Souza
Testing Lorentz invariance is essential as it is one of the pillars of modern physics. Moreover, its violation is foreseen in several popular Quantum Gravity models. Several authors study the effects of Lorentz invariance violation (LIV) in the propagation of ultra-high energy cosmic rays. These particles are the most energetic events ever detected and therefore represent a promising framework to test LIV. In this work we present an analytic calculation of the in-elasticity for any
The Astrophysical Journal | 2018
R.G. Lang; Humberto Martínez-Huerta; Vitor de Souza
a+b rightarrow c+d
Archive | 2005
A. Achterberg; M. Ackermann; J. Ahrens; X. Bai; B. Baret; M. Bartelt; R. Bay; K. Beattie; T. Becka; P. Berghaus; D. Berley; E. Bernardini; Daniel Bertrand; E. Blaufuss; O. Botner; A. Bouchta; Jürgen Braun; T. Burgess; T. Castermans; D. Chirkin; J. Clem; J. M. Conrad; Anna Davour; C. De Clercq; P. Desiati; T. DeYoung; J. Dreyer; R. Ehrlich; T. Feser; K. Filimonov
interaction using first order perturbation in the dispersion relation that violates Lorentz invariance. The inelasticity can be calculated by solving a third-order polynomial equation containing: a) the kinematics of the interaction, b) the LIV term for each particle and c) the geometry of the interaction. We use the inelasticity we calculate to investigate the proton propagation in the intergalactic media. The photopion production of the proton interaction with the CMB is taken into account using the inelasticity and the attenuation length in different LIV scenarios. We show how the allowed phase space for the photopion production changes when LIV is considered for the interaction. The calculations presented here are going to be extended in order to calculated the modified ultra-high energy cosmic rays spectrum and compare it to the data.
arXiv: High Energy Astrophysical Phenomena | 2017
R.G. Lang; Humberto Martínez-Huerta; Vitor de Souza
In this paper, Lorentz Invariance Violation (LIV) is introduced in the calculations of photon propagation in the Universe. LIV is considered in the photon sector and the mean free path of the
