Add to ORKGContribution to 2012 Annual Report, Central Laser Facility (CLF), Rutherford-Appleton Laboratory, UKWe discuss classical and quantum corrections to Thomson scattering between an electron and a laser. For radiation reaction, nonlinear, and quantum effects we identify characteristic dimensionless parameters in terms of which we determine the leading order correction terms
Thomson scattering is the name given to the scattering of light by electrons. This interaction is ub...
We consider the Thomson and Compton scattering of high-energy electrons in an intense laser pulse. O...
We consider the emission spectrum of high-energy electrons in an intense laser field. At high intens...
Recent advances in table-top, ultrahigh intensity lasers have led to significant renewed interest in...
The Thomson scattering spectra of an electron by an ultraintense laser field are computed. It is fou...
A century ago, J. J. Thomson showed that the scattering of low-intensity light by electrons was a li...
Classical Thomson scattering—the scattering of low-intensity light by electrons—is a linear process,...
Based on single particle tracking in the framework of classical Thomson scattering with incoherent s...
We investigate quantum radiation reaction in laser-electron interactions across different energy and...
The paper considers the process of Thomson scattering of coherent diffraction radiation (CDR) produc...
Inverse Compton scattering sources are finding increasing use as intense sources of high-energy phot...
The classical nonlinear incoherent Thomson scattering power spectrum from a single relativistic elec...
If an electric charge is accelerated by a sufficiently intense electromagnetic field, the effects of...
Accelerated charges emit electromagnetic radiation and the consequent energy-momentum loss alters th...
Modern laser technology is now sufficiently advanced that collisions between high-intensity laser pu...
Thomson scattering is the name given to the scattering of light by electrons. This interaction is ub...
We consider the Thomson and Compton scattering of high-energy electrons in an intense laser pulse. O...
We consider the emission spectrum of high-energy electrons in an intense laser field. At high intens...
Recent advances in table-top, ultrahigh intensity lasers have led to significant renewed interest in...
The Thomson scattering spectra of an electron by an ultraintense laser field are computed. It is fou...
A century ago, J. J. Thomson showed that the scattering of low-intensity light by electrons was a li...
Classical Thomson scattering—the scattering of low-intensity light by electrons—is a linear process,...
Based on single particle tracking in the framework of classical Thomson scattering with incoherent s...
We investigate quantum radiation reaction in laser-electron interactions across different energy and...
The paper considers the process of Thomson scattering of coherent diffraction radiation (CDR) produc...
Inverse Compton scattering sources are finding increasing use as intense sources of high-energy phot...
The classical nonlinear incoherent Thomson scattering power spectrum from a single relativistic elec...
If an electric charge is accelerated by a sufficiently intense electromagnetic field, the effects of...
Accelerated charges emit electromagnetic radiation and the consequent energy-momentum loss alters th...
Modern laser technology is now sufficiently advanced that collisions between high-intensity laser pu...
Thomson scattering is the name given to the scattering of light by electrons. This interaction is ub...
We consider the Thomson and Compton scattering of high-energy electrons in an intense laser pulse. O...
We consider the emission spectrum of high-energy electrons in an intense laser field. At high intens...