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

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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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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",

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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

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

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