Volt-per-Ångstrom terahertz fields from X-ray free-electron lasers.

T Tanikawa Suren Karabekyan Sergey KovalevS CasalbuoniV AsgekarS BonettiSimon Wall Tim LaarmannD TurchinovichP ZaldenT KampfrathA S FisherN StojanovicMichael Gensch Gianluca Aldo Geloni

Published in: Journal of synchrotron radiation (2020)

The electron linear accelerators driving modern X-ray free-electron lasers can emit intense, tunable, quasi-monochromatic terahertz (THz) transients with peak electric fields of V Å-1 and peak magnetic fields in excess of 10 T when a purpose-built, compact, superconducting THz undulator is implemented. New research avenues such as X-ray movies of THz-driven mode-selective chemistry come into reach by making dual use of the ultra-short GeV electron bunches, possible by a rather minor extension of the infrastructure.

Keyphrases

electron microscopy
dual energy
high resolution
solar cells
computed tomography
electron transfer
magnetic resonance imaging
magnetic resonance
mass spectrometry
image quality
contrast enhanced