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Main Authors: El-Kordy, Tarek, Engels, Ralf, Faatz, Nicolas, Pinto, Pedro Costa, Di Nezza, Pasquale, Ferro-Luzzi, Massimiliano, Grigoryev, Kiril, Langer, Christoph, Kannis, Chrysovalantis, Pütz, Simon
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2505.05585
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author El-Kordy, Tarek
Engels, Ralf
Faatz, Nicolas
Pinto, Pedro Costa
Di Nezza, Pasquale
Ferro-Luzzi, Massimiliano
Grigoryev, Kiril
Langer, Christoph
Kannis, Chrysovalantis
Pütz, Simon
author_facet El-Kordy, Tarek
Engels, Ralf
Faatz, Nicolas
Pinto, Pedro Costa
Di Nezza, Pasquale
Ferro-Luzzi, Massimiliano
Grigoryev, Kiril
Langer, Christoph
Kannis, Chrysovalantis
Pütz, Simon
contents As the LHC beams cannot be polarized, introducing a dense polarized gas target at the LHCb experiment at CERN, to be operated concurrently with beam-beam collisions, will facilitate fixed-target interactions to explore a new energy regime of spin physics measurements. Unfortunately, typical surface coatings, such as water, Teflon, or aluminum, commonly used to avoid polarization losses, are prohibited due to restrictions imposed by vacuum and beam policies. Using the former atomic beam source for the polarized target at ANKE/COSY (Forschungszentrum Jülich), an accompanying Lamb-shift polarimeter and a storage cell chamber inside a superconducting magnet, provide a perfect test stand to investigate the properties of a storage cell coated with amorphous carbon. A significant recombination rate, ranging from $93\%$ to $100\%$, as well as preservation of polarization during recombination surpassing $74\%$, were observed. We successfully produced H$_2$ molecules with a nuclear polarization of P$\sim 0.59$. In addition, we could produce polarized H$_3^+$ ions for the first time and observed the shift of the axis of rotation within HD molecules.
format Preprint
id arxiv_https___arxiv_org_abs_2505_05585
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle STORI2024: Tests of Amorphous Carbon-coated Storage Cells for a Polarized Gas Target at LHCb and Further Results
El-Kordy, Tarek
Engels, Ralf
Faatz, Nicolas
Pinto, Pedro Costa
Di Nezza, Pasquale
Ferro-Luzzi, Massimiliano
Grigoryev, Kiril
Langer, Christoph
Kannis, Chrysovalantis
Pütz, Simon
Instrumentation and Detectors
Nuclear Experiment
As the LHC beams cannot be polarized, introducing a dense polarized gas target at the LHCb experiment at CERN, to be operated concurrently with beam-beam collisions, will facilitate fixed-target interactions to explore a new energy regime of spin physics measurements. Unfortunately, typical surface coatings, such as water, Teflon, or aluminum, commonly used to avoid polarization losses, are prohibited due to restrictions imposed by vacuum and beam policies. Using the former atomic beam source for the polarized target at ANKE/COSY (Forschungszentrum Jülich), an accompanying Lamb-shift polarimeter and a storage cell chamber inside a superconducting magnet, provide a perfect test stand to investigate the properties of a storage cell coated with amorphous carbon. A significant recombination rate, ranging from $93\%$ to $100\%$, as well as preservation of polarization during recombination surpassing $74\%$, were observed. We successfully produced H$_2$ molecules with a nuclear polarization of P$\sim 0.59$. In addition, we could produce polarized H$_3^+$ ions for the first time and observed the shift of the axis of rotation within HD molecules.
title STORI2024: Tests of Amorphous Carbon-coated Storage Cells for a Polarized Gas Target at LHCb and Further Results
topic Instrumentation and Detectors
Nuclear Experiment
url https://arxiv.org/abs/2505.05585