Brighter, faster, stronger: ultrafast scattering of free molecules

Advances in FEL technologies have contributed remarkably to various scientific fields over the past decade, and ultrafast molecular dynamics is no exception. The ability to probe motions of the molecule via scattering provides uniquely direct structural information, which, when combined with traditional spectroscopic techniques of comparable temporal resolution, paints a holistic movie of the molecular dynamics. This review aims to provide an introduction to the ultrafast scattering of gas-phase molecules, and to identify the key results and technological breakthroughs that advance our acquaintance of ultrafast molecular dynamics, with a particular focus on the achievements in ultrafast molecular dynamics since the first generation of FEL facilities. We present a brief history of gas-phase ultrafast scattering and the fundamentals of electron- and x-ray scattering, highlighting the complementarity, differences, and bottlenecks of the two experimental scattering methods. We then consider key upgrades in XRS and UED experiments that facilitated the unprecedented spatiotemporal resolution that enabled many of the notable results in the field. Finally, we examine anticipated facility upgrades that address the demand for experimental versatility and enable further developments and exploration. [GRAPHICS]

Automated summary

Advances in FEL technologies have significantly contributed to various scientific fields, including ultrafast molecular dynamics. The ability to probe molecular motions via scattering provides direct structural information and complements traditional spectroscopic techniques. This review focuses on the achievements in ultrafast molecular dynamics since the first generation of FEL facilities, providing a brief history of gas-phase ultrafast scattering and discussing key upgrades in XRS and UED experiments that have enabled unprecedented spatiotemporal resolution.