Designing and commissioning pre-analysis system for intense D-D/D-T neutron generator

Abstract: An intense accelerator-based D-D/D-T neutron generator, with neutron yields of 6 × 10 10 n/s due to the D-D reaction and 6 × 10 12 n/s due to the D-T reaction, is being developed at Lanzhou University in China. The 2.45 GHz electron cyclotron resonance (ECR) ion source and the pre-analysis system, as the front injector for the accelerator tube of the neutron generator, are designed to provide a 35 mA deuterium beam for neutron production and a 50 mA proton beam for commissioning. The pre-analysis system consis… Show more

“…Their BET surface area is revealed to be 20.4 m 2 /g with broad pore size distribution in the range of 50-120 nm (Figure S2a, inset), which is similar to other studies. [40][41][42] This well-defined nano-tube form of the PMo 12 /PPyNT nanocomposite is important not only because it results in a large surface area, but this also enables higher charge transfer rates. [19,30] In the context of PPy material itself, having nanotube form means that it has a higher proportion of ordered polymer chains, leading to longer conjugation length between the π-electrons and N-atoms on its backbone.…”

All Redox‐Active 2D MXene and 0D Phosphomolybdic Acid Nanoclusters‐Anchored Polypyrrole Nanotubes for High‐Performance Aqueous Hybrid Supercapacitors

“…Their BET surface area is revealed to be 20.4 m 2 /g with broad pore size distribution in the range of 50-120 nm (Figure S2a, inset), which is similar to other studies. [40][41][42] This well-defined nano-tube form of the PMo 12 /PPyNT nanocomposite is important not only because it results in a large surface area, but this also enables higher charge transfer rates. [19,30] In the context of PPy material itself, having nanotube form means that it has a higher proportion of ordered polymer chains, leading to longer conjugation length between the π-electrons and N-atoms on its backbone.…”

All Redox‐Active 2D MXene and 0D Phosphomolybdic Acid Nanoclusters‐Anchored Polypyrrole Nanotubes for High‐Performance Aqueous Hybrid Supercapacitors