Frequency Measurements of Superradiance from the Strontium Clock Transition

Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson
American Physical Society (APS)
Published 2018

Publication Date:	2018-05-10
Publisher:	American Physical Society (APS)
Electronic ISSN:	2160-3308
Topics:	Physics
Published by:	http://www.aps.org/

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autor	Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson
beschreibung	Author(s): Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson The frequency stability of superradiant light emitted from an optical clock transition in cold strontium atoms surpasses that of active microwave atomic clocks, paving the way for a next generation of high-precision optical frequency references to be used outside the laboratory environment. [Phys. Rev. X 8, 021036] Published Wed May 09, 2018
citation_standardnr	6255242
datenlieferant	ipn_articles
feed_id	150882
feed_publisher	American Physical Society (APS)
feed_publisher_url	http://www.aps.org/
insertion_date	2018-05-10
journaleissn	2160-3308
publikationsjahr_anzeige	2018
publikationsjahr_facette	2018
publikationsjahr_intervall	7984:2015-2019
publikationsjahr_sort	2018
publisher	American Physical Society (APS)
quelle	Physical Review X
relation	http://link.aps.org/doi/10.1103/PhysRevX.8.021036
search_space	articles
shingle_author_1	Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson
shingle_author_2	Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson
shingle_author_3	Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson
shingle_author_4	Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson
shingle_catch_all_1	Frequency Measurements of Superradiance from the Strontium Clock Transition Author(s): Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson The frequency stability of superradiant light emitted from an optical clock transition in cold strontium atoms surpasses that of active microwave atomic clocks, paving the way for a next generation of high-precision optical frequency references to be used outside the laboratory environment. [Phys. Rev. X 8, 021036] Published Wed May 09, 2018 Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson American Physical Society (APS) 2160-3308 21603308
shingle_catch_all_2	Frequency Measurements of Superradiance from the Strontium Clock Transition Author(s): Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson The frequency stability of superradiant light emitted from an optical clock transition in cold strontium atoms surpasses that of active microwave atomic clocks, paving the way for a next generation of high-precision optical frequency references to be used outside the laboratory environment. [Phys. Rev. X 8, 021036] Published Wed May 09, 2018 Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson American Physical Society (APS) 2160-3308 21603308
shingle_catch_all_3	Frequency Measurements of Superradiance from the Strontium Clock Transition Author(s): Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson The frequency stability of superradiant light emitted from an optical clock transition in cold strontium atoms surpasses that of active microwave atomic clocks, paving the way for a next generation of high-precision optical frequency references to be used outside the laboratory environment. [Phys. Rev. X 8, 021036] Published Wed May 09, 2018 Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson American Physical Society (APS) 2160-3308 21603308
shingle_catch_all_4	Frequency Measurements of Superradiance from the Strontium Clock Transition Author(s): Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson The frequency stability of superradiant light emitted from an optical clock transition in cold strontium atoms surpasses that of active microwave atomic clocks, paving the way for a next generation of high-precision optical frequency references to be used outside the laboratory environment. [Phys. Rev. X 8, 021036] Published Wed May 09, 2018 Matthew A. Norcia, Julia R. K. Cline, Juan A. Muniz, John M. Robinson, Ross B. Hutson, Akihisa Goban, G. Edward Marti, Jun Ye, and James K. Thompson American Physical Society (APS) 2160-3308 21603308
shingle_title_1	Frequency Measurements of Superradiance from the Strontium Clock Transition
shingle_title_2	Frequency Measurements of Superradiance from the Strontium Clock Transition
shingle_title_3	Frequency Measurements of Superradiance from the Strontium Clock Transition
shingle_title_4	Frequency Measurements of Superradiance from the Strontium Clock Transition
timestamp	2025-06-30T23:34:48.393Z
titel	Frequency Measurements of Superradiance from the Strontium Clock Transition
titel_suche	Frequency Measurements of Superradiance from the Strontium Clock Transition
topic	U
uid	ipn_articles_6255242