beta-Decay studies with an implantation technique

J. Buescher; J. Ponsaers; R. Raabe; M. Huyse; P. Van Duppen; F. Aksouh; D. Smirnov; H. O. U. Fynbo; S. Hyldegaard; C. Aa Diget

doi:10.1016/j.nimb.2008.05.084

beta-Decay studies with an implantation technique

J. Buescher, J. Ponsaers, R. Raabe, M. Huyse, P. Van Duppen, F. Aksouh, D. Smirnov, H. O. U. Fynbo, S. Hyldegaard, C. Aa Diget

Physics

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

Abstract

A method is presented for the detection of charged particles emitted in the beta-decay of exotic nuclei. Direct implantation of radioactive nuclei in a very thin double-sided silicon strip detector is now, feasible thanks to the advances in the production and post-acceleration of ISOL beams. The high degree of pixelazation, and consequently the small active volume of the detector. and the precise energy of the radioactive ion beam are the key features of the method. Among the advantages of the method are a good precision of the overall normalization and a reduction of the background due to beta-radiation. Several developments are described in the present paper. The detection threshold at low energies is determined using pulsed signals. An alternative energy calibration for the decay events, free from any dead-layer effects can be performed by implanting radioactive ions decaying to known narrow resonances. e.g. Na-20. Time and position correlations in a small detection volume can be used to identify possible different decay channels. Ail overview of precision measurements Using this technique is given to prove the strength of the method. (c) 2008 Elsevier B.V. All rights reserved.

Original language	English
Pages (from-to)	4652-4656
Number of pages	5
Journal	NUCLEAR INSTRUMENTS
Volume	266
Issue number	19-20
DOIs	https://doi.org/10.1016/j.nimb.2008.05.084
Publication status	Published - Oct 2008

Keywords

beta-Decay
Double-sided strip detector
Efficiency
Internal calibration
Correlations
RADIOACTIVITY
PARTICLES
DETECTOR

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10.1016/j.nimb.2008.05.084

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title = "beta-Decay studies with an implantation technique",

abstract = "A method is presented for the detection of charged particles emitted in the beta-decay of exotic nuclei. Direct implantation of radioactive nuclei in a very thin double-sided silicon strip detector is now, feasible thanks to the advances in the production and post-acceleration of ISOL beams. The high degree of pixelazation, and consequently the small active volume of the detector. and the precise energy of the radioactive ion beam are the key features of the method. Among the advantages of the method are a good precision of the overall normalization and a reduction of the background due to beta-radiation. Several developments are described in the present paper. The detection threshold at low energies is determined using pulsed signals. An alternative energy calibration for the decay events, free from any dead-layer effects can be performed by implanting radioactive ions decaying to known narrow resonances. e.g. Na-20. Time and position correlations in a small detection volume can be used to identify possible different decay channels. Ail overview of precision measurements Using this technique is given to prove the strength of the method. (c) 2008 Elsevier B.V. All rights reserved.",

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author = "J. Buescher and J. Ponsaers and R. Raabe and M. Huyse and {Van Duppen}, P. and F. Aksouh and D. Smirnov and Fynbo, {H. O. U.} and S. Hyldegaard and Diget, {C. Aa}",

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AU - Buescher, J.

AU - Ponsaers, J.

AU - Raabe, R.

AU - Huyse, M.

AU - Van Duppen, P.

AU - Aksouh, F.

AU - Smirnov, D.

AU - Fynbo, H. O. U.

AU - Hyldegaard, S.

AU - Diget, C. Aa

PY - 2008/10

Y1 - 2008/10

N2 - A method is presented for the detection of charged particles emitted in the beta-decay of exotic nuclei. Direct implantation of radioactive nuclei in a very thin double-sided silicon strip detector is now, feasible thanks to the advances in the production and post-acceleration of ISOL beams. The high degree of pixelazation, and consequently the small active volume of the detector. and the precise energy of the radioactive ion beam are the key features of the method. Among the advantages of the method are a good precision of the overall normalization and a reduction of the background due to beta-radiation. Several developments are described in the present paper. The detection threshold at low energies is determined using pulsed signals. An alternative energy calibration for the decay events, free from any dead-layer effects can be performed by implanting radioactive ions decaying to known narrow resonances. e.g. Na-20. Time and position correlations in a small detection volume can be used to identify possible different decay channels. Ail overview of precision measurements Using this technique is given to prove the strength of the method. (c) 2008 Elsevier B.V. All rights reserved.

AB - A method is presented for the detection of charged particles emitted in the beta-decay of exotic nuclei. Direct implantation of radioactive nuclei in a very thin double-sided silicon strip detector is now, feasible thanks to the advances in the production and post-acceleration of ISOL beams. The high degree of pixelazation, and consequently the small active volume of the detector. and the precise energy of the radioactive ion beam are the key features of the method. Among the advantages of the method are a good precision of the overall normalization and a reduction of the background due to beta-radiation. Several developments are described in the present paper. The detection threshold at low energies is determined using pulsed signals. An alternative energy calibration for the decay events, free from any dead-layer effects can be performed by implanting radioactive ions decaying to known narrow resonances. e.g. Na-20. Time and position correlations in a small detection volume can be used to identify possible different decay channels. Ail overview of precision measurements Using this technique is given to prove the strength of the method. (c) 2008 Elsevier B.V. All rights reserved.

KW - beta-Decay

KW - Double-sided strip detector

KW - Efficiency

KW - Internal calibration

KW - Correlations

KW - RADIOACTIVITY

KW - PARTICLES

KW - DETECTOR

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ER -

beta-Decay studies with an implantation technique

Abstract

Keywords

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