Abstract

Light is routinely used to steer the motion of atoms in free space, enabling cooling and trapping of matter waves through ponderomotive interaction and Doppler-mediated photon scattering. In parallel, optical interaction with free electrons has recently emerged as a powerful way to modulate the electron wave function for applications in ultrafast electron microscopy. Here, we combine these two worlds by theoretically demonstrating that matter waves can be optically manipulated by inelastic interaction with optical fields, allowing us to modulate the translational wave function and produce temporally and spatially compressed atomic beam pulses.

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