15 research outputs found
Deriving relativistic momentum and energy
We present a new derivation of the expressions for momentum and energy of a
relativistic particle. In contrast to the procedures commonly adopted in
textbooks, the one suggested here requires only the knowledge of the
composition law for velocities along one spatial dimension, and does not make
use of the concept of relativistic mass, or of the formalism of four-vectors.
The basic ideas are very general and can be applied also to kinematics
different from the Newtonian and Einstein ones, in order to construct the
corresponding dynamics.Comment: 15 pages, 2 figure
Nanoplasmonic electron acceleration by attosecond-controlled forward rescattering in silver clusters
Accelerating electrons to high energy and controlling their properties on ultrafast timescales is challenging. Here the authors show controlled acceleration of electron bunches using forward scattering in the resonantly enhanced polarization field of silver clusters driven by a phase-tuned two-color laser field