ThuliumV1, Main, Exploration, bibRecord, 000807

Resonance laser ionization of atoms for nuclear physics

Identifieur interne : 000807 ( Main/Exploration ); précédent : 000806; suivant : 000808

Resonance laser ionization of atoms for nuclear physics

Auteurs : V N Fedosseev [Suisse] ; Yu Kudryavtsev [Belgique] ; V I Mishin [Russie]

Source :

Physica Scripta [ 0031-8949 ] ; 2012.

RBID : ISTEX:4EAE60D7C57F1308A100786A403C18443A5F2432

English descriptors

KwdEn :
- Alkhazov, Ambartsumyan, Andreev, Appl, Atomic beam, Backe, Barzakh, Bekov, Bergh, Beta decay, Cavity rilis, Charge radii, Chubukov, Cocolios, Collinear, Conf, Denisov, Duppen, Engl, Erdmann, Europium, Excitation, Fedorov, Fedoseyev, Fedosseev, Huyse, Instrum, Ionization, Ionization scheme, Ionization schemes, Iris, Iris facility, Isol, Isol facilities, Isolde, Isolde rilis, Isomer, Isomer separation, Isomeric, Isotope, Ivanov, Kluge, Kratz, Kudryavtsev, Laser, Laser beams, Laser ionization, Laser photoionization spectroscopy, Laser radiation, Laser resonance ionization, Laser resonance ionization spectroscopy, Laser spectroscopy, Laser spectroscopy phys, Laser systems, Lassen, Letokhov, Lett, Magnetic moments, Mainz, Mainz university, Mass separator, Methods phys, Mishin, Nucl, Nuclear charge radii, Nuclides, Photoionization, Phys, Proc, Radioactive isotopes, Radioisotope, Resonance ionization, Resonance ionization laser, Resonance ionization mass spectrometry, Resonance ionization spectroscopy, Resonance laser ionization, Rilis, Rothe, Sekatskii, Selective laser, Selective laser ionization, Selectivity, Seliverstov, Separator, Sonoda, Source nucl, Spectral resolution, Spectroscopic, Spectroscopy, Transl, Trautmann, Triumf, Wendt.
Teeft :
- Alkhazov, Ambartsumyan, Andreev, Appl, Atomic beam, Backe, Barzakh, Bekov, Bergh, Beta decay, Cavity rilis, Charge radii, Chubukov, Cocolios, Collinear, Conf, Denisov, Duppen, Engl, Erdmann, Europium, Excitation, Fedorov, Fedoseyev, Fedosseev, Huyse, Instrum, Ionization, Ionization scheme, Ionization schemes, Iris, Iris facility, Isol, Isol facilities, Isolde, Isolde rilis, Isomer, Isomer separation, Isomeric, Isotope, Ivanov, Kluge, Kratz, Kudryavtsev, Laser, Laser beams, Laser ionization, Laser photoionization spectroscopy, Laser radiation, Laser resonance ionization, Laser resonance ionization spectroscopy, Laser spectroscopy, Laser spectroscopy phys, Laser systems, Lassen, Letokhov, Lett, Magnetic moments, Mainz, Mainz university, Mass separator, Methods phys, Mishin, Nucl, Nuclear charge radii, Nuclides, Photoionization, Phys, Proc, Radioactive isotopes, Radioisotope, Resonance ionization, Resonance ionization laser, Resonance ionization mass spectrometry, Resonance ionization spectroscopy, Resonance laser ionization, Rilis, Rothe, Sekatskii, Selective laser, Selective laser ionization, Selectivity, Seliverstov, Separator, Sonoda, Source nucl, Spectral resolution, Spectroscopic, Spectroscopy, Transl, Trautmann, Triumf, Wendt.

Abstract

The applications of the laser resonance ionization method in nuclear research are reviewed. Investigation of radioactive isotopes using resonance ionization techniques provides a valuable combination of high selectivity, efficiency and spectral resolution. The majority of radioactive ion beams produced at on-line isotope separator facilities profit from the selectivity and universal applicability of laser ion sources. Numerous ultra-sensitive and high-resolution techniques of laser spectroscopy based on resonance ionization of atoms have been developed for the study of rare and radioactive isotopes. A summary of ionization schemes applied to radioactive isotopes is given in table form.

Url:

https://api.istex.fr/document/4EAE60D7C57F1308A100786A403C18443A5F2432/fulltext/pdf

DOI: 10.1088/0031-8949/85/05/058104

Affiliations:

Belgique, Russie, Suisse

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Le document en format XML

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<term>Ambartsumyan</term>
<term>Andreev</term>
<term>Appl</term>
<term>Atomic beam</term>
<term>Backe</term>
<term>Barzakh</term>
<term>Bekov</term>
<term>Bergh</term>
<term>Beta decay</term>
<term>Cavity rilis</term>
<term>Charge radii</term>
<term>Chubukov</term>
<term>Cocolios</term>
<term>Collinear</term>
<term>Conf</term>
<term>Denisov</term>
<term>Duppen</term>
<term>Engl</term>
<term>Erdmann</term>
<term>Europium</term>
<term>Excitation</term>
<term>Fedorov</term>
<term>Fedoseyev</term>
<term>Fedosseev</term>
<term>Huyse</term>
<term>Instrum</term>
<term>Ionization</term>
<term>Ionization scheme</term>
<term>Ionization schemes</term>
<term>Iris</term>
<term>Iris facility</term>
<term>Isol</term>
<term>Isol facilities</term>
<term>Isolde</term>
<term>Isolde rilis</term>
<term>Isomer</term>
<term>Isomer separation</term>
<term>Isomeric</term>
<term>Isotope</term>
<term>Ivanov</term>
<term>Kluge</term>
<term>Kratz</term>
<term>Kudryavtsev</term>
<term>Laser</term>
<term>Laser beams</term>
<term>Laser ionization</term>
<term>Laser photoionization spectroscopy</term>
<term>Laser radiation</term>
<term>Laser resonance ionization</term>
<term>Laser resonance ionization spectroscopy</term>
<term>Laser spectroscopy</term>
<term>Laser spectroscopy phys</term>
<term>Laser systems</term>
<term>Lassen</term>
<term>Letokhov</term>
<term>Lett</term>
<term>Magnetic moments</term>
<term>Mainz</term>
<term>Mainz university</term>
<term>Mass separator</term>
<term>Methods phys</term>
<term>Mishin</term>
<term>Nucl</term>
<term>Nuclear charge radii</term>
<term>Nuclides</term>
<term>Photoionization</term>
<term>Phys</term>
<term>Proc</term>
<term>Radioactive isotopes</term>
<term>Radioisotope</term>
<term>Resonance ionization</term>
<term>Resonance ionization laser</term>
<term>Resonance ionization mass spectrometry</term>
<term>Resonance ionization spectroscopy</term>
<term>Resonance laser ionization</term>
<term>Rilis</term>
<term>Rothe</term>
<term>Sekatskii</term>
<term>Selective laser</term>
<term>Selective laser ionization</term>
<term>Selectivity</term>
<term>Seliverstov</term>
<term>Separator</term>
<term>Sonoda</term>
<term>Source nucl</term>
<term>Spectral resolution</term>
<term>Spectroscopic</term>
<term>Spectroscopy</term>
<term>Transl</term>
<term>Trautmann</term>
<term>Triumf</term>
<term>Wendt</term>
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<term>Ambartsumyan</term>
<term>Andreev</term>
<term>Appl</term>
<term>Atomic beam</term>
<term>Backe</term>
<term>Barzakh</term>
<term>Bekov</term>
<term>Bergh</term>
<term>Beta decay</term>
<term>Cavity rilis</term>
<term>Charge radii</term>
<term>Chubukov</term>
<term>Cocolios</term>
<term>Collinear</term>
<term>Conf</term>
<term>Denisov</term>
<term>Duppen</term>
<term>Engl</term>
<term>Erdmann</term>
<term>Europium</term>
<term>Excitation</term>
<term>Fedorov</term>
<term>Fedoseyev</term>
<term>Fedosseev</term>
<term>Huyse</term>
<term>Instrum</term>
<term>Ionization</term>
<term>Ionization scheme</term>
<term>Ionization schemes</term>
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<term>Iris facility</term>
<term>Isol</term>
<term>Isol facilities</term>
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<term>Isomer</term>
<term>Isomer separation</term>
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<term>Isotope</term>
<term>Ivanov</term>
<term>Kluge</term>
<term>Kratz</term>
<term>Kudryavtsev</term>
<term>Laser</term>
<term>Laser beams</term>
<term>Laser ionization</term>
<term>Laser photoionization spectroscopy</term>
<term>Laser radiation</term>
<term>Laser resonance ionization</term>
<term>Laser resonance ionization spectroscopy</term>
<term>Laser spectroscopy</term>
<term>Laser spectroscopy phys</term>
<term>Laser systems</term>
<term>Lassen</term>
<term>Letokhov</term>
<term>Lett</term>
<term>Magnetic moments</term>
<term>Mainz</term>
<term>Mainz university</term>
<term>Mass separator</term>
<term>Methods phys</term>
<term>Mishin</term>
<term>Nucl</term>
<term>Nuclear charge radii</term>
<term>Nuclides</term>
<term>Photoionization</term>
<term>Phys</term>
<term>Proc</term>
<term>Radioactive isotopes</term>
<term>Radioisotope</term>
<term>Resonance ionization</term>
<term>Resonance ionization laser</term>
<term>Resonance ionization mass spectrometry</term>
<term>Resonance ionization spectroscopy</term>
<term>Resonance laser ionization</term>
<term>Rilis</term>
<term>Rothe</term>
<term>Sekatskii</term>
<term>Selective laser</term>
<term>Selective laser ionization</term>
<term>Selectivity</term>
<term>Seliverstov</term>
<term>Separator</term>
<term>Sonoda</term>
<term>Source nucl</term>
<term>Spectral resolution</term>
<term>Spectroscopic</term>
<term>Spectroscopy</term>
<term>Transl</term>
<term>Trautmann</term>
<term>Triumf</term>
<term>Wendt</term>
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<front><div type="abstract">The applications of the laser resonance ionization method in nuclear research are reviewed. Investigation of radioactive isotopes using resonance ionization techniques provides a valuable combination of high selectivity, efficiency and spectral resolution. The majority of radioactive ion beams produced at on-line isotope separator facilities profit from the selectivity and universal applicability of laser ion sources. Numerous ultra-sensitive and high-resolution techniques of laser spectroscopy based on resonance ionization of atoms have been developed for the study of rare and radioactive isotopes. A summary of ionization schemes applied to radioactive isotopes is given in table form.</div>
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Resonance laser ionization of atoms for nuclear physics

Resonance laser ionization of atoms for nuclear physics

Source :

English descriptors

Abstract

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