A classical computation of gravitational bremsstrahlung in ultra-planckian collisions of massive point particles is presented in an arbitrary number d of toroidal or non-compact extra dimensions. Our method generalizes the post-linear formalism of General Relativity to the multidimensional case. The total emitted energy, as well as its angular and frequency distribution are discussed in detail. In terms of the gravitational radius r_S of the collision energy, the impact parameter b and the Lorentz factor in the CM frame, the leading order radiation efficiency in the Lab frame is shown to be of order (r_S/b)^{3(d+1)} gamma_{cm} for d=0, 1 and of order (r_S/b)^{3(d+1)} gamma_{cm}^{2d-3} for d>1, up to a known d-dependent coefficient and a ln ...
Classical soft graviton theorem gives the gravitational wave-form at future null infinity at late re...
After reviewing the Weizsächer-Williams technique of virtual quanta for calculation of electromagnet...
We investigate the gravitational energy emission of an ultrarelativistic particle radially falling i...
A classical computation of vector bremsstrahlung in ultrarelativistic gravitational-force collisions...
Classically, if two highly boosted particles collide head-on, a black hole is expected to form whose...
4 pages, revtex 4. The discussion section is changed to better clarify the region of validity of our...
We compute classical gravitational bremsstrahlung from the gravitational scattering of two massless ...
The angular and frequency characteristics of the gravitational radiation emitted in collisions of ma...
Preprint number addedInternational audienceThe emitted energy and the cross-section of classical sca...
Using soft-graviton theorems a well-known zero-frequency limit (ZFL) for the gravitational radiation...
Abstract We derive a universal expression for the gravitational radiation energy spectrum dE GW /dω ...
International audienceWe study the gravitational radiation emitted during the scattering of two spin...
Gravitational wave solutions to Einstein’s equations and their generation are examined in D-dimensio...
We investigate the radiation emitted by a uniformly moving charged scalar particle in the spacetime ...
We investigate the gravitational energy emission of an ultrarelativistic particle radially falling i...
Classical soft graviton theorem gives the gravitational wave-form at future null infinity at late re...
After reviewing the Weizsächer-Williams technique of virtual quanta for calculation of electromagnet...
We investigate the gravitational energy emission of an ultrarelativistic particle radially falling i...
A classical computation of vector bremsstrahlung in ultrarelativistic gravitational-force collisions...
Classically, if two highly boosted particles collide head-on, a black hole is expected to form whose...
4 pages, revtex 4. The discussion section is changed to better clarify the region of validity of our...
We compute classical gravitational bremsstrahlung from the gravitational scattering of two massless ...
The angular and frequency characteristics of the gravitational radiation emitted in collisions of ma...
Preprint number addedInternational audienceThe emitted energy and the cross-section of classical sca...
Using soft-graviton theorems a well-known zero-frequency limit (ZFL) for the gravitational radiation...
Abstract We derive a universal expression for the gravitational radiation energy spectrum dE GW /dω ...
International audienceWe study the gravitational radiation emitted during the scattering of two spin...
Gravitational wave solutions to Einstein’s equations and their generation are examined in D-dimensio...
We investigate the radiation emitted by a uniformly moving charged scalar particle in the spacetime ...
We investigate the gravitational energy emission of an ultrarelativistic particle radially falling i...
Classical soft graviton theorem gives the gravitational wave-form at future null infinity at late re...
After reviewing the Weizsächer-Williams technique of virtual quanta for calculation of electromagnet...
We investigate the gravitational energy emission of an ultrarelativistic particle radially falling i...