20th International Conference on Electromagnetic Isotope Separators and Related Topics (EMISXX)

Commissioning the N=126 Factory, a new multi-nucleon transfer reaction facility at Argonne National Laboratory

21 Oct 2025, 19:13

1m

MacDonald Foyer (Fairmont Chateau Whistler)

Poster contribution Ion guide, gas catcher, and beam manipulation techniques Poster Session

Speaker

Sam Porter (University of Notre Dame)

Description

Multi-nucleon transfer (MNT) reactions between two heavy ions offer an effective method of producing heavy, neutron-rich nuclei that cannot currently be accessed efficiently using traditional projectile-fragmentation, target-fragmentation or fission production techniques [1]. These nuclei are important for understanding many astrophysical phenomena. For example, properties of the neutron-rich nuclei near the $N=126$ shell closure are critical to the understanding of the $r$-process pathway and the formation of the $A\sim195$ abundance peak [2]. The $N=126$ Factory currently commissioning at Argonne National Laboratory's ATLAS facility will make use of these reactions to allow for the study of these nuclei [3]. Due to the wide angular distribution of MNT reaction products, a large-volume gas catcher is used to convert these reaction products into a continuous low-energy beam. This beam is extracted from the gas catcher and then undergoes preliminary separation in a magnetic dipole of resolving power $R\sim10^3$ before passing through an RFQ cooler-buncher and MR-TOF system of resolving power $R>10^5$, sufficient to suppress isobaric contaminants. These isotopically separated, bunched low energy beams will then be available for experimental systems at ATLAS such as the CPT mass spectrometer for precision mass measurements and X-Array for decay spectroscopy. Results of the ongoing commissioning of the facility will be presented.

This work is supported in part by the U.S. Department of Energy, Office of Nuclear Physics, under Contract No. DE-AC02-06CH11357; by the National Science Foundation under Grant No. PHY-2310059; by the University of Notre Dame; and with resources of ANL’s ATLAS facility, an Office of Science User Facility.

[1]V. Zagrebaev & W. Greiner, PRL 101 122701 (2008)
[2]M.R. Mumpower et al., PPNP 86 86 (2016)
[3]G. Savard et al.,NIM-B 463 258 (2019)