Electron phase space control in photonic chip-based particle acceleration
| Autor: | Shiloh, Roy, Illmer, Johannes, Chlouba, Tomáš, Yousefi, Peyman, Schönenberger, Norbert, Niedermayer, Uwe, Mittelbach, Anna, Hommelhoff, Peter |
|---|---|
| Rok vydání: | 2021 |
| Předmět: | |
| Druh dokumentu: | Working Paper |
| DOI: | 10.1038/s41586-021-03812-9 |
| Popis: | Particle accelerators are essential tools in science, hospitals and industry. Yet, their costs and large footprint, ranging in length from meters to several kilometres, limit their use. The recently demonstrated nanophotonics-based acceleration of charged particles can reduce the cost and size of these accelerators by orders of magnitude. In this approach, a carefully designed nano-structure transfers energy from laser light to the particles in a phase-synchronous manner, thereby accelerating them. However, so far, confinement of the particle beam in the structure over extended distance has been elusive; it requires complex control of the electron beam phase space and is mandatory to accelerate particles to the MeV range and beyond with minimal particle loss. Here, we demonstrate complex electron phase space control at optical frequencies in the 225 nanometre narrow channel of a record-long photonic nanostructure. In particular, we experimentally show alternating phase focusing, a particle propagation scheme for, in principle, arbitrarily long minimal-loss transport. We expect this work to enable MeV electron beam generation on a photonic chip, with direct ramification for new forms of radiotherapy and compact light sources, and other forms of electron phase space control resulting in narrow energy or zeptosecond-bunched beams, for instance. Comment: {\dag} Roy Shiloh, Johannes Illmer, and Tom\'a\v{s} Chlouba contributed equally to this work |
| Databáze: | arXiv |
| Externí odkaz: |
|