English

On-chip picosecond synchrotron pulse shaper

Accelerator Physics 2022-11-08 v1 Mesoscale and Nanoscale Physics Optics

Abstract

Synchrotrons are powerful and productive in revealing the spatiotemporal complexities in matter. However, X-ray pulses produced by the synchrotrons are predetermined in specific patterns and widths, limiting their operational flexibility and temporal resolution. Here, we introduce the on-chip picosecond synchrotron pulse shaper that shapes the sub-nm-wavelength hard X-ray pulses at individual beamlines, flexibly and efficiently beyond the synchrotron pulse limit. The pulse shaper is developed using the widely available silicon-on-insulator technology, oscillates in torsional motion at the same frequency or at harmonics of the storage ring, and manipulates X-ray pulses through the narrow Bragg peak of the crystalline silicon. Stable pulse manipulation is achieved by synchronizing the shaper timing to the X-ray timing using electrostatic closed-loop control. Tunable shaping windows down to 40 psps are demonstrated, allowing X-ray pulse picking, streaking, and slicing in the majority of worldwide synchrotrons. The compact, on-chip shaper offers a simple but versatile approach to boost synchrotron operating flexibility and to investigate structural dynamics from condensed matter to biological systems beyond the current synchrotron-source limit.

Keywords

Cite

@article{arxiv.2211.03567,
  title  = {On-chip picosecond synchrotron pulse shaper},
  author = {Jian Zhou and Jinxing Jiang and Donald A. Walko and Dafei Jin and Daniel López and David A. Czaplewski and Jin Wang},
  journal= {arXiv preprint arXiv:2211.03567},
  year   = {2022}
}
R2 v1 2026-06-28T05:19:52.683Z