A compact and highly collimated atomic/molecular beam source

TL;DR

This paper presents a simple, compact, and highly collimated atomic/molecular beam source based on a segmented capillary design, demonstrating its effectiveness in producing narrow Helium beams for surface monitoring applications.

Contribution

The paper introduces a novel segmented capillary design for atomic/molecular beam sources, achieving high collimation and compactness, with practical application in surface coverage monitoring.

Findings

Beam width of 7 mrad achieved

Effective suppression of off-axis atoms demonstrated

Application shown in real-time surface coverage measurement

Abstract

We describe the design, characterization and application of a simple, highly collimated and compact atomic/molecular beam source. This source is based on a segmented capillary design, constructed using a syringe needle. Angular width measurements and free molecular flow simulations show that the segmented structure effectively suppresses atoms travelling in off-axis directions, resulting in a narrow beam of Helium atoms having a width of 7 mrad (full width half maximum). We demonstrate an application of this source by using it for monitoring real-time changes in surface coverage on a clean Cu(110) surface exposed to oxygen, by measuring specular reflectivity of the Helium beam generated using this source.