Precision calculation of blackbody radiation shifts for optical frequency metrology

We show that three group IIIB divalent ions, B(+), Al(+), and In(+), have anomalously small blackbody radiation (BBR) shifts of the ns(2) (1)S(0)-nsnp (3)P(0)(o) clock transitions. The fractional BBR shifts for these ions are at least 10 times smaller than those of any other present or proposed opti...

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Veröffentlicht in:	Physical review letters 2011-09, Vol.107 (14), p.143006-143006, Article 143006
Hauptverfasser:	Safronova, M S, Kozlov, M G, Clark, Charles W
Format:	Artikel
Sprache:	eng
Schlagworte:	ACCURACY ALUMINIUM IONS BLACKBODY RADIATION BORON IONS CHARGED PARTICLES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS CONFIGURATION INTERACTION ELECTROMAGNETIC RADIATION INDIUM IONS IONS MECHANICS QUANTUM MECHANICS RADIATIONS TEMPERATURE RANGE TEMPERATURE RANGE 0273-0400 K
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container_end_page	143006
container_issue	14
container_start_page	143006
container_title	Physical review letters
container_volume	107
creator	Safronova, M S Kozlov, M G Clark, Charles W
description	We show that three group IIIB divalent ions, B(+), Al(+), and In(+), have anomalously small blackbody radiation (BBR) shifts of the ns(2) (1)S(0)-nsnp (3)P(0)(o) clock transitions. The fractional BBR shifts for these ions are at least 10 times smaller than those of any other present or proposed optical frequency standards at the same temperature, and are less than 0.3% of the Sr clock shift. We have developed a hybrid configuration-interaction + coupled-cluster method that provides accurate treatment of correlation corrections in such ions and yields a rigorous upper bound on the uncertainty of the final results. We reduce the BBR contribution to the fractional frequency uncertainty of the Al(+) clock to 4×10(-19) at T=300 K. We also reduce the uncertainties due to this effect at room temperature to 10(-18) level for B(+) and In(+) to facilitate further development of these systems for metrology and quantum sensing.
doi_str_mv	10.1103/physrevlett.107.143006
format	Article
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subjects	ACCURACY ALUMINIUM IONS BLACKBODY RADIATION BORON IONS CHARGED PARTICLES CLASSICAL AND QUANTUM MECHANICS, GENERAL PHYSICS CONFIGURATION INTERACTION ELECTROMAGNETIC RADIATION INDIUM IONS IONS MECHANICS QUANTUM MECHANICS RADIATIONS TEMPERATURE RANGE TEMPERATURE RANGE 0273-0400 K
title	Precision calculation of blackbody radiation shifts for optical frequency metrology
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