Recoil-ion trapping for precision mass measurements. Herlert, A., van Gorp, S., Beck, D., Blaum, K., Breitenfeldt, M., Cakirli, R., B., George, S., Hager, U., Herfurth, F., Kellerbauer, A., Lunney, D., Savreux, R., Schweikhard, L., & Yazidjian, C. The European Physical Journal A, 48(7):1-12, Springer, 7, 2012. ![Recoil-ion trapping for precision mass measurements [link]](https://bibbase.org/img/filetypes/link.svg "link")
Website doi abstract bibtex For the first time masses of recoiling daughter ions have been measured that were held after beta-decay in a buffer-gas-filled Penning trap. From the masses of the trapped beta-decaying manganese ions 61-63Mn+ and the daughter recoil-ions 61-63Fe+ the Q values of 61-63Mn have been deduced with absolute uncertainties of about 5keV. The observed yields of iron ions are compared to the results from simulations, which confirm a recoil-ion trapping efficiency of about 50%.
@article{
title = {Recoil-ion trapping for precision mass measurements},
type = {article},
year = {2012},
keywords = {Hadrons,Heavy Ions,Nuclear Fusion,Nuclear Physics,Particle and Nuclear Physics},
pages = {1-12},
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month = {7},
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abstract = {For the first time masses of recoiling daughter ions have been measured that were held after beta-decay in a buffer-gas-filled Penning trap. From the masses of the trapped beta-decaying manganese ions 61-63Mn+ and the daughter recoil-ions 61-63Fe+ the Q values of 61-63Mn have been deduced with absolute uncertainties of about 5keV. The observed yields of iron ions are compared to the results from simulations, which confirm a recoil-ion trapping efficiency of about 50%.},
bibtype = {article},
author = {Herlert, A. and van Gorp, S. and Beck, D. and Blaum, K. and Breitenfeldt, M. and Cakirli, R. B. and George, S. and Hager, U. and Herfurth, F. and Kellerbauer, A. and Lunney, D. and Savreux, R. and Schweikhard, L. and Yazidjian, C.},
doi = {10.1140/EPJA/I2012-12097-2},
journal = {The European Physical Journal A},
number = {7}
}
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