Noa Voloch‐Bloch scite author profile

Within the framework of quantum mechanics, a unique particle wave packet exists in the form of the Airy function. Its counterintuitive properties are revealed as it propagates in time or space: the quantum probability wave packet preserves its shape despite dispersion or diffraction and propagates along a parabolic caustic trajectory, even though no force is applied. This does not contradict Newton's laws of motion, because the wave packet centroid propagates along a straight line. Nearly 30 years later, this wave packet, known as an accelerating Airy beam, was realized in the optical domain; later it was generalized to an orthogonal and complete family of beams that propagate along parabolic trajectories, as well as to beams that propagate along arbitrary convex trajectories. Here we report the experimental generation and observation of the Airy beams of free electrons. These electron Airy beams were generated by diffraction of electrons through a nanoscale hologram, which imprinted on the electrons' wavefunction a cubic phase modulation in the transverse plane. The highest-intensity lobes of the generated beams indeed followed parabolic trajectories. We directly observed a non-spreading electron wavefunction that self-heals, restoring its original shape after passing an obstacle. This holographic generation of electron Airy beams opens up new avenues for steering electronic wave packets like their photonic counterparts, because the wave packets can be imprinted with arbitrary shapes or trajectories.

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Nonlinear generation and manipulation of Airy beams

Ellenbogen

et al. 2009

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Cerenkov-Type Second-Harmonic Generation in Two-Dimensional Nonlinear Photonic Structures

Saltiel

Sheng

Voloch‐Bloch

et al. 2009

IEEE J. Quantum Electron.

104

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Nonlinear Diffraction from a Virtual Beam

et al. 2010

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Simulating Correlations of Structured Spontaneously Down‐Converted Photon Pairs

Trajtenberg‐Mills

Karnieli

Voloch‐Bloch

et al. 2020

Laser & Photonics Reviews

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Introducing structure into photon pair generation via spontaneous parametric down‐conversion (SPDC) is shown to be useful for controlling the output state and exploiting new degrees of freedom for quantum technologies. This paper presents a new method for simulating first‐ and second‐order correlations of the down‐converted photons in the presence of structured pump beams and shaped nonlinear photonic crystals. This method is nonperturbative, and thus accounts for high‐order effects, and can be made very efficient using parallel computing. Experimental results of photodetection and coincidence rates in complex spatial configurations are recovered quantitatively by this method. These include SPDC in 2D nonlinear photonic crystals, as well as with structured light beams such as Laguerre Gaussian and Hermite Gaussian beams. This simulation method reveals conservation rules for the down‐converted signal and idler beams that depend on the nonlinear crystal modulation pattern and the pump shape. This scheme can facilitate the design of nonlinear crystals and pumping conditions for generating non‐classical light with pre‐defined properties.

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Noa Voloch‐Bloch

Generation of electron Airy beams

Nonlinear generation and manipulation of Airy beams

Cerenkov-Type Second-Harmonic Generation in Two-Dimensional Nonlinear Photonic Structures

Nonlinear Diffraction from a Virtual Beam

Simulating Correlations of Structured Spontaneously Down‐Converted Photon Pairs

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