Lamb-shift measurement in hydrogenic phosphorus

The final result of a 2[ital s] [sup 2][ital S][sub 1/2--]2[ital p] [sup 2][ital P][sub 1/2] Lamb-shift measurement by the laser resonance method in hydrogenic phosphorus is reported. Metastable 2[ital s] [sup 2][ital S][sub 1/2] ions were prepared using a [beta][approx]0.08 velocity beam of [sup 31...

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Veröffentlicht in:	Physical review. A, Atomic, molecular, and optical physics Atomic, molecular, and optical physics, 1993-09, Vol.48 (3), p.1875-1892
Hauptverfasser:	PROSS, H.-J, BUDELSKY, D, KREMER, L, PLATTE, D, VON BRENTANO, P, GASSEN, J, MÜLLER, D, SCHEUER, F, PAPE, A, SENS, J. C
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Schlagworte:	664400 - Experimentally Derived Information on Atomic & Molecular Properties- (1992-) ATOMIC AND MOLECULAR PHYSICS Atomic properties and interactions with photons Atomic spectra CHARGED PARTICLES Chemical Physics ELECTRODYNAMICS ENERGY ENERGY LEVELS Exact sciences and technology EXCITED STATES FIELD THEORIES IONS LAMB SHIFT LASER SPECTROSCOPY METASTABLE STATES MULTICHARGED IONS PHOSPHORUS IONS Physics QUANTUM ELECTRODYNAMICS QUANTUM FIELD THEORY SELF-ENERGY SPECTRAL SHIFT SPECTROSCOPY X-ray spectra
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container_end_page	1892
container_issue	3
container_start_page	1875
container_title	Physical review. A, Atomic, molecular, and optical physics
container_volume	48
creator	PROSS, H.-J BUDELSKY, D KREMER, L PLATTE, D VON BRENTANO, P GASSEN, J MÜLLER, D SCHEUER, F PAPE, A SENS, J. C
description	The final result of a 2[ital s] [sup 2][ital S][sub 1/2--]2[ital p] [sup 2][ital P][sub 1/2] Lamb-shift measurement by the laser resonance method in hydrogenic phosphorus is reported. Metastable 2[ital s] [sup 2][ital S][sub 1/2] ions were prepared using a [beta][approx]0.08 velocity beam of [sup 31]P[sup 14+] ions obtained from the MP tandem accelerator at the Centre de Recherches Nucleaires in Strasbourg. From the metastable state the transition to the 2[ital p] [sup 2][ital P][sub 3/2] state was induced with a high-power dye laser leading to a measured transition energy of [Delta][ital E]=2.231 33(12) eV. Subtracting the well-known fine-structure splitting [Delta][ital E][sub FS]=2.314 82(2) eV, the Lamb shift is deduced to be [ital E][sub expt]([ital LS])=20 188(29) GHz. This result is compared with the theoretical value [ital E][sub theor]([ital LS])=20 254(10) GHz and with other experimental results for the Lamb shift in the region [ital Z][le]18. Finally, the utility of the Lamb-shift measurements in testing the [ital G]([ital Z][alpha]) function of the self-energy, which includes only terms in ([ital Z][alpha])[sup [ital n]], [ital n][ge]6, is discussed.
doi_str_mv	10.1103/PhysRevA.48.1875
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C</creator><creatorcontrib>PROSS, H.-J ; BUDELSKY, D ; KREMER, L ; PLATTE, D ; VON BRENTANO, P ; GASSEN, J ; MÜLLER, D ; SCHEUER, F ; PAPE, A ; SENS, J. C</creatorcontrib><description>The final result of a 2[ital s] [sup 2][ital S][sub 1/2--]2[ital p] [sup 2][ital P][sub 1/2] Lamb-shift measurement by the laser resonance method in hydrogenic phosphorus is reported. Metastable 2[ital s] [sup 2][ital S][sub 1/2] ions were prepared using a [beta][approx]0.08 velocity beam of [sup 31]P[sup 14+] ions obtained from the MP tandem accelerator at the Centre de Recherches Nucleaires in Strasbourg. From the metastable state the transition to the 2[ital p] [sup 2][ital P][sub 3/2] state was induced with a high-power dye laser leading to a measured transition energy of [Delta][ital E]=2.231 33(12) eV. Subtracting the well-known fine-structure splitting [Delta][ital E][sub FS]=2.314 82(2) eV, the Lamb shift is deduced to be [ital E][sub expt]([ital LS])=20 188(29) GHz. 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Finally, the utility of the Lamb-shift measurements in testing the [ital G]([ital Z][alpha]) function of the self-energy, which includes only terms in ([ital Z][alpha])[sup [ital n]], [ital n][ge]6, is discussed.</description><identifier>ISSN: 1050-2947</identifier><identifier>EISSN: 1094-1622</identifier><identifier>DOI: 10.1103/PhysRevA.48.1875</identifier><identifier>PMID: 9909803</identifier><identifier>CODEN: PLRAAN</identifier><language>eng</language><publisher>College Park, MD: American Physical Society</publisher><subject>664400 - Experimentally Derived Information on Atomic & Molecular Properties- (1992-) ; ATOMIC AND MOLECULAR PHYSICS ; Atomic properties and interactions with photons ; Atomic spectra ; CHARGED PARTICLES ; Chemical Physics ; ELECTRODYNAMICS ; ENERGY ; ENERGY LEVELS ; Exact sciences and technology ; EXCITED STATES ; FIELD THEORIES ; IONS ; LAMB SHIFT ; LASER SPECTROSCOPY ; METASTABLE STATES ; MULTICHARGED IONS ; PHOSPHORUS IONS ; Physics ; QUANTUM ELECTRODYNAMICS ; QUANTUM FIELD THEORY ; SELF-ENERGY ; SPECTRAL SHIFT ; SPECTROSCOPY ; X-ray spectra</subject><ispartof>Physical review. 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C</creatorcontrib><title>Lamb-shift measurement in hydrogenic phosphorus</title><title>Physical review. A, Atomic, molecular, and optical physics</title><addtitle>Phys Rev A</addtitle><description>The final result of a 2[ital s] [sup 2][ital S][sub 1/2--]2[ital p] [sup 2][ital P][sub 1/2] Lamb-shift measurement by the laser resonance method in hydrogenic phosphorus is reported. Metastable 2[ital s] [sup 2][ital S][sub 1/2] ions were prepared using a [beta][approx]0.08 velocity beam of [sup 31]P[sup 14+] ions obtained from the MP tandem accelerator at the Centre de Recherches Nucleaires in Strasbourg. From the metastable state the transition to the 2[ital p] [sup 2][ital P][sub 3/2] state was induced with a high-power dye laser leading to a measured transition energy of [Delta][ital E]=2.231 33(12) eV. Subtracting the well-known fine-structure splitting [Delta][ital E][sub FS]=2.314 82(2) eV, the Lamb shift is deduced to be [ital E][sub expt]([ital LS])=20 188(29) GHz. This result is compared with the theoretical value [ital E][sub theor]([ital LS])=20 254(10) GHz and with other experimental results for the Lamb shift in the region [ital Z][le]18. Finally, the utility of the Lamb-shift measurements in testing the [ital G]([ital Z][alpha]) function of the self-energy, which includes only terms in ([ital Z][alpha])[sup [ital n]], [ital n][ge]6, is discussed.</description><subject>664400 - Experimentally Derived Information on Atomic & Molecular Properties- (1992-)</subject><subject>ATOMIC AND MOLECULAR PHYSICS</subject><subject>Atomic properties and interactions with photons</subject><subject>Atomic spectra</subject><subject>CHARGED PARTICLES</subject><subject>Chemical Physics</subject><subject>ELECTRODYNAMICS</subject><subject>ENERGY</subject><subject>ENERGY LEVELS</subject><subject>Exact sciences and technology</subject><subject>EXCITED STATES</subject><subject>FIELD THEORIES</subject><subject>IONS</subject><subject>LAMB SHIFT</subject><subject>LASER SPECTROSCOPY</subject><subject>METASTABLE STATES</subject><subject>MULTICHARGED IONS</subject><subject>PHOSPHORUS IONS</subject><subject>Physics</subject><subject>QUANTUM ELECTRODYNAMICS</subject><subject>QUANTUM FIELD THEORY</subject><subject>SELF-ENERGY</subject><subject>SPECTRAL SHIFT</subject><subject>SPECTROSCOPY</subject><subject>X-ray spectra</subject><issn>1050-2947</issn><issn>1094-1622</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>1993</creationdate><recordtype>article</recordtype><recordid>eNo9kM1rGzEQxUVoSdMk91wKpuRQKOtopNVKOhrTNgVDS0jOQpmVsgr74Wp2A_7vs8auB4YZeL95MI-xG-BLAC7v_jY7eghvq2VplmC0OmMXwG1ZQCXEh_2ueCFsqT-xz0SvfK7S2HN2bi23hssLdrfx3XNBTYrjoguephy60I-L1C-aXZ2Hl9AnXGybgebOE12xj9G3FK6P85I9_fzxuL4vNn9-_V6vNgVKY8YioqrLaHgJlleVlDoKNCC0ihYBo-LRoyologfNQ22trUWtbW21CUbVQl6yrwffgcbkCNMYsMGh7wOOruJCKthD3w9Q41u3zanzeecGn9z9auNSL7bSzR-D0tq8wUx_O9DbPPybAo2uS4ShbX0fhokcGGVBgwQ1o_yAYh6Icognd-BuH7z7H7wrjdsHP598ObpPz12oTwfHpGf99qh7Qt_G7HtMdMKklZWslHwHwiiKKQ</recordid><startdate>19930901</startdate><enddate>19930901</enddate><creator>PROSS, H.-J</creator><creator>BUDELSKY, D</creator><creator>KREMER, L</creator><creator>PLATTE, D</creator><creator>VON BRENTANO, P</creator><creator>GASSEN, J</creator><creator>MÜLLER, D</creator><creator>SCHEUER, F</creator><creator>PAPE, A</creator><creator>SENS, J. 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A, Atomic, molecular, and optical physics</jtitle><addtitle>Phys Rev A</addtitle><date>1993-09-01</date><risdate>1993</risdate><volume>48</volume><issue>3</issue><spage>1875</spage><epage>1892</epage><pages>1875-1892</pages><issn>1050-2947</issn><eissn>1094-1622</eissn><coden>PLRAAN</coden><abstract>The final result of a 2[ital s] [sup 2][ital S][sub 1/2--]2[ital p] [sup 2][ital P][sub 1/2] Lamb-shift measurement by the laser resonance method in hydrogenic phosphorus is reported. Metastable 2[ital s] [sup 2][ital S][sub 1/2] ions were prepared using a [beta][approx]0.08 velocity beam of [sup 31]P[sup 14+] ions obtained from the MP tandem accelerator at the Centre de Recherches Nucleaires in Strasbourg. From the metastable state the transition to the 2[ital p] [sup 2][ital P][sub 3/2] state was induced with a high-power dye laser leading to a measured transition energy of [Delta][ital E]=2.231 33(12) eV. Subtracting the well-known fine-structure splitting [Delta][ital E][sub FS]=2.314 82(2) eV, the Lamb shift is deduced to be [ital E][sub expt]([ital LS])=20 188(29) GHz. This result is compared with the theoretical value [ital E][sub theor]([ital LS])=20 254(10) GHz and with other experimental results for the Lamb shift in the region [ital Z][le]18. Finally, the utility of the Lamb-shift measurements in testing the [ital G]([ital Z][alpha]) function of the self-energy, which includes only terms in ([ital Z][alpha])[sup [ital n]], [ital n][ge]6, is discussed.</abstract><cop>College Park, MD</cop><pub>American Physical Society</pub><pmid>9909803</pmid><doi>10.1103/PhysRevA.48.1875</doi><tpages>18</tpages></addata></record>
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title	Lamb-shift measurement in hydrogenic phosphorus
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