2012
DOI: 10.1063/1.4765092
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ESR studies of nitrogen atoms stabilized in aggregates of krypton–nitrogen nanoclusters immersed in superfluid helium

Abstract: Impurity-helium condensates (IHCs) containing nitrogen and krypton atoms immersed in superfluid 4 He have been studied via a CW electron spin resonance (ESR) technique. The IHCs are gel-like aggregates of nanoclusters composed of impurity species. It was found that the addition of krypton atoms to the nitrogen-helium gas mixture used for preparation of IHCs increases efficiency of stabilization of nitrogen atoms.

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Cited by 17 publications
(15 citation statements)
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“…1). It is worth noting that the states C 5 Π u and W 3 − u can be formed by recombination of N( 4 S) and N( 2 D) atoms, which are present in high concentrations in impurity-helium condensates (up to 5 × 10 19 N( 4 S) atoms per cm 3 in krypton-helium samples [4] and a large amount of N( 2 D) atoms manifests in the spectra detected due to the very intense α-group).…”
Section: Discussionmentioning
confidence: 99%
See 1 more Smart Citation
“…1). It is worth noting that the states C 5 Π u and W 3 − u can be formed by recombination of N( 4 S) and N( 2 D) atoms, which are present in high concentrations in impurity-helium condensates (up to 5 × 10 19 N( 4 S) atoms per cm 3 in krypton-helium samples [4] and a large amount of N( 2 D) atoms manifests in the spectra detected due to the very intense α-group).…”
Section: Discussionmentioning
confidence: 99%
“…Stabilization of radicals occurs mostly on the surface of the impurity nanoclusters, separated from each other by absorbed helium shells. The evaporation of helium atoms adsorbed on the impurity nanocluster surfaces starts a trigger mechanism for initiation of free radical recombination in impurity-helium condensates [2][3][4]. Such a trigger mechanism gives rise to chemical reactions during IHC sample warm-up for temperatures of 6-12 K. Intense recombinations of the stored radicals (nitrogen atoms in our case) create high concentrations of excited atoms and molecules.…”
mentioning
confidence: 96%
“…This allows us to determine the flux of nanoclusters to be 2•10 13 s -1 in the process of condensation of our nitrogen-helium gas mixture N 2 :He = 1:100 which has a flux 10 19 s -1 . Each nanocluster contains on average 50 nitrogen atoms, which reside mostly on the surfaces of these nanoclusters [17]. Usually during the process of their injection into He II, the nanoclusters collide inside superfluid helium and nitrogen atoms from the adjacent nano-cluster strands can meet each other and recombine.…”
Section: Discussionmentioning
confidence: 99%
“…During these measurements, the nanoclusters continued to enter into the bulk He II inside the rotating beaker. Nitrogen atoms stabilized on the surfaces of nanoclusters [17] provide an excellent opportunity for visualization of the process of capturing nanoclusters into vortex cores. When two nanoclusters are captured into a vortex core, they can collide and two nitrogen atoms residing on the surfaces of these nanoclusters can then recombine, starting processes which lead to luminescence of nitrogen atoms in nanoclusters.…”
Section: Introductionmentioning
confidence: 99%
“…[24] In our experiments, nitrogen atoms were captured mainly on the surface of the molecular nitrogen nanoclusters. [25] The average concentration of nitrogen atoms in nitrogenhelium condensates may be as high as 10 19 cm −3 . [26] EXPERIMENTAL APPARATUS…”
mentioning
confidence: 99%