Abstract
Scattering experiments with polarized nucleon targets are an important tool to understand the nuclear spin structure. Pion photoproduction experiments on polarized protrons and neutrons as well as measurements of the neutron and deuteron formfactors will be performed at ELSA. {sup 7}LiH and {sup 6}LiD seem to be attractive target materials for these experiments, because they offer high proton and deuteron polarisation, respectively. Expecially {sup 6}LiD has further very important advantages compared to the common deuteron target materials as d-Butanol and ND{sub 3}. This work describes the mechanism of DNP (Dynamic Nuclear Polarization) in LiH and LiD and gives a view on the nature of the so-called paramagnetic impurities in these materials. In order to maximize the nuclear polarization, the production of these radicals have to take place under well defined temperature conditions. Therefore the first version of an irradiation cryostat was built and tested in regard to its cooling power and temperature adjustment. (orig.).
Citation Formats
Goertz, S.
Irradiation cryostat for LiH and LiD polarized solid targets; Eine Bestrahlungsapparatur fuer LiH und LiD als polarisierte Festkoerpertargets.
Germany: N. p.,
1991.
Web.
Goertz, S.
Irradiation cryostat for LiH and LiD polarized solid targets; Eine Bestrahlungsapparatur fuer LiH und LiD als polarisierte Festkoerpertargets.
Germany.
Goertz, S.
1991.
"Irradiation cryostat for LiH and LiD polarized solid targets; Eine Bestrahlungsapparatur fuer LiH und LiD als polarisierte Festkoerpertargets."
Germany.
@misc{etde_10129411,
title = {Irradiation cryostat for LiH and LiD polarized solid targets; Eine Bestrahlungsapparatur fuer LiH und LiD als polarisierte Festkoerpertargets}
author = {Goertz, S}
abstractNote = {Scattering experiments with polarized nucleon targets are an important tool to understand the nuclear spin structure. Pion photoproduction experiments on polarized protrons and neutrons as well as measurements of the neutron and deuteron formfactors will be performed at ELSA. {sup 7}LiH and {sup 6}LiD seem to be attractive target materials for these experiments, because they offer high proton and deuteron polarisation, respectively. Expecially {sup 6}LiD has further very important advantages compared to the common deuteron target materials as d-Butanol and ND{sub 3}. This work describes the mechanism of DNP (Dynamic Nuclear Polarization) in LiH and LiD and gives a view on the nature of the so-called paramagnetic impurities in these materials. In order to maximize the nuclear polarization, the production of these radicals have to take place under well defined temperature conditions. Therefore the first version of an irradiation cryostat was built and tested in regard to its cooling power and temperature adjustment. (orig.).}
place = {Germany}
year = {1991}
month = {Aug}
}
title = {Irradiation cryostat for LiH and LiD polarized solid targets; Eine Bestrahlungsapparatur fuer LiH und LiD als polarisierte Festkoerpertargets}
author = {Goertz, S}
abstractNote = {Scattering experiments with polarized nucleon targets are an important tool to understand the nuclear spin structure. Pion photoproduction experiments on polarized protrons and neutrons as well as measurements of the neutron and deuteron formfactors will be performed at ELSA. {sup 7}LiH and {sup 6}LiD seem to be attractive target materials for these experiments, because they offer high proton and deuteron polarisation, respectively. Expecially {sup 6}LiD has further very important advantages compared to the common deuteron target materials as d-Butanol and ND{sub 3}. This work describes the mechanism of DNP (Dynamic Nuclear Polarization) in LiH and LiD and gives a view on the nature of the so-called paramagnetic impurities in these materials. In order to maximize the nuclear polarization, the production of these radicals have to take place under well defined temperature conditions. Therefore the first version of an irradiation cryostat was built and tested in regard to its cooling power and temperature adjustment. (orig.).}
place = {Germany}
year = {1991}
month = {Aug}
}