TY - JOUR
T1 - Charge-confining gravitational electrovacuum shock wave
AU - Guendelman, Eduardo
AU - Nissimov, Emil
AU - Pacheva, Svetlana
N1 - Funding Information:
We gratefully acknowledge support of our collaboration through the academic exchange agreement between the Ben-Gurion University and the Bulgarian Academy of Sciences. S.P. has received partial support from COST action MP-1210.
PY - 2014/1/30
Y1 - 2014/1/30
N2 - In previous publications, we have extensively studied spherically symmetric solutions of gravity coupled to a nonstandard type of nonlinear electrodynamics containing a square-root of the ordinary Maxwell Lagrangian (the latter is known to yield quantum chromodynamic (QCD)-like confinement in a flat spacetime). A class of these solutions describe nonstandard black holes of Reissner-Nordström-(anti-)-de Sitter type with an additional constant radial vacuum electric field, in particular, a non-asymptotically flat Reissner-Nordström-type black hole. Here, we study the ultra-relativistic boost (Lousto-Sanchez extension of Aichelburg-Sexl) limit of the latter and show that, unlike the ordinary Reissner-Nordström case, we obtain a gravitational electrovacuum shock wave as a result of the persistence of the gauge field due to the «square-root» Maxwell Lagrangian term. Next, we show that this gravitational electrovacuum shock wave confines charged test particles (both massive and massless) within a finite distance from its front.
AB - In previous publications, we have extensively studied spherically symmetric solutions of gravity coupled to a nonstandard type of nonlinear electrodynamics containing a square-root of the ordinary Maxwell Lagrangian (the latter is known to yield quantum chromodynamic (QCD)-like confinement in a flat spacetime). A class of these solutions describe nonstandard black holes of Reissner-Nordström-(anti-)-de Sitter type with an additional constant radial vacuum electric field, in particular, a non-asymptotically flat Reissner-Nordström-type black hole. Here, we study the ultra-relativistic boost (Lousto-Sanchez extension of Aichelburg-Sexl) limit of the latter and show that, unlike the ordinary Reissner-Nordström case, we obtain a gravitational electrovacuum shock wave as a result of the persistence of the gauge field due to the «square-root» Maxwell Lagrangian term. Next, we show that this gravitational electrovacuum shock wave confines charged test particles (both massive and massless) within a finite distance from its front.
KW - Gravitational shock waves
KW - charge confinement
KW - nonlinear electrodynamics
UR - http://www.scopus.com/inward/record.url?scp=84893367536&partnerID=8YFLogxK
U2 - 10.1142/S0217732314500205
DO - 10.1142/S0217732314500205
M3 - Article
AN - SCOPUS:84893367536
SN - 0217-7323
VL - 29
JO - Modern Physics Letters A
JF - Modern Physics Letters A
IS - 3
M1 - 1450020
ER -