Particle theory

On the convergence of the gradient expansion in hydrodynamics

(2019)

Authors:

Sašo Grozdanov, Pavel K Kovtun, Andrei O Starinets, Petar Tadić

Reconstructing the EFT of Inflation from Cosmological Data

(2019)

Authors:

Amel Durakovic, Paul Hunt, Subodh P Patil, Subir Sarkar

Counting string theory standard models

Physics Letters B Elsevier 792 (2019) 258-262

Authors:

A Constantin, Y-H He, Andre Lukas

Abstract:

We derive an approximate analytic relation between the number of consistent heterotic Calabi-Yau compactifications of string theory with the exact charged matter content of the standard model of particle physics and the topological data of the internal manifold: the former scaling exponentially with the number of Kähler parameters. This is done by an estimate of the number of solutions to a set of Diophantine equations representing constraints satisfied by any consistent heterotic string vacuum with three chiral massless families, and has been computationally checked to hold for complete intersection Calabi-Yau threefolds (CICYs) with up to seven Kähler parameters. When extrapolated to the entire CICY list, the relation gives ∼10 23 string theory standard models; for the class of Calabi-Yau hypersurfaces in toric varieties, it gives ∼10 723 standard models.

Magnetic monopole search with the full MoEDAL trapping detector in 13 TeV $pp$ collisions interpreted in photon-fusion and Drell-Yan production

(2019)

Authors:

MoEDAL Collaboration, B Acharya, J Alexandre, S Baines, P Benes, B Bergmann, J Bernabéu, A Bevan, H Branzas, M Campbell, S Cecchini, YM Cho, M de Montigny, A De Roeck, JR Ellis, M El Sawy, M Fairbairn, D Felea, M Frank, J Hays, AM Hirt, J Janecek, D-W Kim, A Korzenev, DH Lacarrère, SC Lee, C Leroy, G Levi, A Lionti, J Mamuzic, A Margiotta, N Mauri, NE Mavromatos, P Mermod, M Mieskolainen, L Millward, VA Mitsou, R Orava, I Ostrovskiy, J Papavassiliou, B Parker, L Patrizii, GE Păvălaş, JL Pinfold, V Popa, M Pozzato, S Pospisil, A Rajantie, R Ruiz de Austri, Z Sahnoun, M Sakellariadou, A Santra, S Sarkar, G Semenoff, A Shaa, G Sirri, K Sliwa, R Soluk, M Spurio, M Staelens, M Suk, M Tenti, V Togo, JA Tuszyński, V Vento, O Vives, Z Vykydal, A Wall, IS Zgura

Maser radiation from collisionless shocks: application to astrophysical jets

High Power Laser Science and Engineering Cambridge University Press 7 (2019) e17

Authors:

DC Speirs, K Ronald, ADR Phelps, A Rigby, JE Cross, PM Kozlowski, F Miniati, M Oliver, S Sarkar, Petros Tzeferacos, Gianluca Gregori, Et al.

Abstract:

This paper describes a model of electron energization and cyclotron-maser emission applicable to astrophysical magnetized collisionless shocks. It is motivated by the work of Begelman, Ergun and Rees [Astrophys. J. 625, 51 (2005)] who argued that the cyclotron-maser instability occurs in localized magnetized collisionless shocks such as those expected in blazar jets. We report on recent research carried out to investigate electron acceleration at collisionless shocks and maser radiation associated with the accelerated electrons. We describe how electrons accelerated by lower-hybrid waves at collisionless shocks generate cyclotron-maser radiation when the accelerated electrons move into regions of stronger magnetic fields. The electrons are accelerated along the magnetic field and magnetically compressed leading to the formation of an electron velocity distribution having a horseshoe shape due to conservation of the electron magnetic moment. Under certain conditions the horseshoe electron velocity distribution function is unstable to the cyclotron-maser instability [Bingham and Cairns, Phys. Plasmas 7, 3089 (2000); Melrose, Rev. Mod. Plasma Phys. 1, 5 (2017)].