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620th Wilhelm and Else Heraeus Seminar 
Interaction of shaped electron wavefunctions with light and matter

19 - 23 June 2016, Physik-Zentrum Bad Honnef, Germany

19 Jun 2016 17:00
23 Jun 2016
Physik-Zentrum Bad Honnef, Germany

Generously supported by the Wilhelm and Else Heraeus-Stiftung




Scientific background

In recent years, new methods have been demonstrated to shape the wavefunction of the electron and to control its interaction with light and matter. Electron beam shaping can be performed by patterning the thickness of a thin silicon nitride film through which the electron passes, or by forming a desired electric or magnetic potential using miniature wires and coils. New types of electron beam shapes have been formed, including electron vortex beams, self-accelerating Airy beams and non-diffracting Bessel beams. These electron beams provide exciting opportunities to study the interaction of electrons with light and matter.

In a recent related development, laser-pumped nano-fabricated dielectric structures have been used to accelerate electron beams, thereby opening new options for chip-scale accelerators and miniature X-ray light sources. The goal of this seminar is to provide a platform for presenting recent results and stimulating discussions between researchers in this field.

Structure of the seminar

Selected topics will be presented in talks and poster sessions which will be introduced by one-minute poster flashes. The three best posters will receive a prize and the winners will be invited to present their work in a short talk (15 min. talk plus 5 min. discussion. There will be plenty of time to discuss and study special topics in smaller groups.

Accommodation and full board will be covered by the WE-Heraeus Foundation.
No conference fee will be charged.

As the number of participants is limited to 80 persons, a selection will be made from applicants who are required to submit an abstract along with the registration form.

The 620th WE-Heraeus-Seminar is kindly supported by the WE-Heraeus Foundation.