Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature

M. W. Froese; K. Blaum; F. Fellenberger; M. Grieser; M. Lange; F. Laux; S. Menk; D. A. Orlov; R. Repnow; T. Sieber; Y. Toker; R. Von Hahn; A. Wolf

doi:10.1103/physreva.83.023202

Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature

M. W. Froese
, K. Blaum
, F. Fellenberger
, M. Grieser
, M. Lange
, F. Laux
, S. Menk
, D. A. Orlov
, R. Repnow
, T. Sieber
, Y. Toker
, R. Von Hahn
, A. Wolf

Max Planck Institute for Nuclear Physics
Weizmann Institute of Science

Research output: Contribution to journal › Article › peer-review

25 Scopus citations

Abstract

The decay of excited aluminum-cluster anions (Aln-, n=4 and 5) has been investigated in a cryogenic linear ion-beam trap. A power-law is found to accurately reproduce the time dependence of the observed decay rates at early storage times, although the exponents are significantly larger than the typically observed 1/t decay. It is shown that the power-law exponent is, at most, weakly dependent on the cluster electron affinity and heat capacity. A previous power-law exponent model for small clusters is also shown to be in disagreement with both investigated species. The attribution of a drop in the decay rate at later times to radiative cooling as observed in larger molecules also does not appear justified in our case. A strong dependence of the power-law exponent on the ambient temperature was observed.

Original language	English
Article number	023202
Journal	Physical Review A - Atomic, Molecular, and Optical Physics
Volume	83
Issue number	2
DOIs	https://doi.org/10.1103/physreva.83.023202
State	Published - 22 Feb 2011
Externally published	Yes

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Froese, M. W., Blaum, K., Fellenberger, F., Grieser, M., Lange, M., Laux, F., Menk, S., Orlov, D. A., Repnow, R., Sieber, T., Toker, Y., Von Hahn, R., & Wolf, A. (2011). Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature. Physical Review A - Atomic, Molecular, and Optical Physics, 83(2), Article 023202. https://doi.org/10.1103/physreva.83.023202

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title = "Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature",

abstract = "The decay of excited aluminum-cluster anions (Aln-, n=4 and 5) has been investigated in a cryogenic linear ion-beam trap. A power-law is found to accurately reproduce the time dependence of the observed decay rates at early storage times, although the exponents are significantly larger than the typically observed 1/t decay. It is shown that the power-law exponent is, at most, weakly dependent on the cluster electron affinity and heat capacity. A previous power-law exponent model for small clusters is also shown to be in disagreement with both investigated species. The attribution of a drop in the decay rate at later times to radiative cooling as observed in larger molecules also does not appear justified in our case. A strong dependence of the power-law exponent on the ambient temperature was observed.",

author = "Froese, \{M. W.\} and K. Blaum and F. Fellenberger and M. Grieser and M. Lange and F. Laux and S. Menk and Orlov, \{D. A.\} and R. Repnow and T. Sieber and Y. Toker and \{Von Hahn\}, R. and A. Wolf",

year = "2011",

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day = "22",

doi = "10.1103/physreva.83.023202",

language = "אנגלית",

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Froese, MW, Blaum, K, Fellenberger, F, Grieser, M, Lange, M, Laux, F, Menk, S, Orlov, DA, Repnow, R, Sieber, T, Toker, Y, Von Hahn, R & Wolf, A 2011, 'Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature', Physical Review A - Atomic, Molecular, and Optical Physics, vol. 83, no. 2, 023202. https://doi.org/10.1103/physreva.83.023202

TY - JOUR

T1 - Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature

AU - Froese, M. W.

AU - Blaum, K.

AU - Fellenberger, F.

AU - Grieser, M.

AU - Lange, M.

AU - Laux, F.

AU - Menk, S.

AU - Orlov, D. A.

AU - Repnow, R.

AU - Sieber, T.

AU - Toker, Y.

AU - Von Hahn, R.

AU - Wolf, A.

PY - 2011/2/22

Y1 - 2011/2/22

N2 - The decay of excited aluminum-cluster anions (Aln-, n=4 and 5) has been investigated in a cryogenic linear ion-beam trap. A power-law is found to accurately reproduce the time dependence of the observed decay rates at early storage times, although the exponents are significantly larger than the typically observed 1/t decay. It is shown that the power-law exponent is, at most, weakly dependent on the cluster electron affinity and heat capacity. A previous power-law exponent model for small clusters is also shown to be in disagreement with both investigated species. The attribution of a drop in the decay rate at later times to radiative cooling as observed in larger molecules also does not appear justified in our case. A strong dependence of the power-law exponent on the ambient temperature was observed.

AB - The decay of excited aluminum-cluster anions (Aln-, n=4 and 5) has been investigated in a cryogenic linear ion-beam trap. A power-law is found to accurately reproduce the time dependence of the observed decay rates at early storage times, although the exponents are significantly larger than the typically observed 1/t decay. It is shown that the power-law exponent is, at most, weakly dependent on the cluster electron affinity and heat capacity. A previous power-law exponent model for small clusters is also shown to be in disagreement with both investigated species. The attribution of a drop in the decay rate at later times to radiative cooling as observed in larger molecules also does not appear justified in our case. A strong dependence of the power-law exponent on the ambient temperature was observed.

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SN - 1050-2947

VL - 83

JO - Physical Review A - Atomic, Molecular, and Optical Physics

JF - Physical Review A - Atomic, Molecular, and Optical Physics

IS - 2

M1 - 023202

ER -

Thermionic power-law decay of excited aluminum-cluster anions and its dependence on storage-device temperature

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