Development of a strontium optical lattice clock for the SOC mission on the ISS

S. Origlia; S. Schiller; M. S. Pramod; L. Smith; Y. Singh; W. He; S. Viswam; D. Świerad; Thomas J.R. Hughes; K. Bongs; Uwe Sterr; Christian Lisdat; S. Vogt; S. Bize; J. Lodewyck; R. Le Targat; D. Holleville; B. Venon; Patrick Gill; G. Barwood; I. R. Hill; Y. Ovchinnikov; André Philipp Kulosa; Wolfgang Ertmer; Ernst Maria Rasel; J. Stuhler; W. Kaenders

doi:10.1117/12.2229473

Development of a strontium optical lattice clock for the SOC mission on the ISS

S. Origlia
, S. Schiller
, M. S. Pramod
, L. Smith
, Y. Singh
, W. He
, S. Viswam
, D. Świerad
, Thomas J.R. Hughes
, K. Bongs
, Uwe Sterr
, Christian Lisdat
, S. Vogt
, S. Bize
, J. Lodewyck
, R. Le Targat
, D. Holleville
, B. Venon
, Patrick Gill
, G. Barwood

I. R. Hill, Y. Ovchinnikov, André Philipp Kulosa, Wolfgang Ertmer, Ernst Maria Rasel, J. Stuhler, W. Kaenders

Publikation: Nicht-textuelle Medien › Audiovisuelle Veröffentlichung › Forschung › Peer-Review

Abstract

The ESA mission "Space Optical Clock" project aims at operating an optical lattice clock on the ISS in approximately 2023. The scientific goals of the mission are to perform tests of fundamental physics, to enable space-assisted relativistic geodesy and to intercompare optical clocks on the ground using microwave and optical links. The performance goal of the space clock is less than 1 × 10 ^-17uncertainty and 1 × 10 ^-15τ ^-1/2 instability. Within an EU-FP7-funded project, a strontium optical lattice clock demonstrator has been developed. Goal performances are instability below 1 × 10 ^-15τ ^-1/2 and fractional inaccuracy 5 × 10 ^-17. For the design of the clock, techniques and approaches suitable for later space application are used, such as modular design, diode lasers, low power consumption subunits, and compact dimensions. The Sr clock apparatus is fully operational, and the clock transition in ⁸⁸Sr was observed with linewidth as small as 9 Hz.

Originalsprache	Englisch
Herausgeber (Verlag)	SPIE
DOIs	https://doi.org/10.1117/12.2229473
Publikationsstatus	Veröffentlicht - 29 Apr. 2016
Veranstaltung	Quantum Optics - Brussels, Belgien Dauer: 5 Apr. 2016 → 7 Apr. 2016

ASJC Scopus Sachgebiete

Elektronische, optische und magnetische Materialien
Physik der kondensierten Materie
Angewandte Mathematik
Elektrotechnik und Elektronik
Angewandte Informatik

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10.1117/12.2229473

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Verknüpfung zur Publikation in Scopus

Development of a strontium optical lattice clock for the SOC mission on the ISS
SOC2 consortium, 29 Apr. 2016, Quantum Optics. Shields, A. J. & Stuhler, J. (Hrsg.). SPIE, 990003. (Proceedings of SPIE - The International Society for Optical Engineering; Band 9900).
Publikation: Beitrag in Buch/Bericht/Sammelwerk/Konferenzband › Aufsatz in Konferenzband › Forschung › Peer-Review

Open Access

Dieses zitieren

Origlia, S., Schiller, S., Pramod, M. S., Smith, L., Singh, Y., He, W., Viswam, S., Świerad, D., Hughes, T. J. R., Bongs, K., Sterr, U., Lisdat, C., Vogt, S., Bize, S., Lodewyck, J., Le Targat, R., Holleville, D., Venon, B., Gill, P., ... Kaenders, W. (2016). Development of a strontium optical lattice clock for the SOC mission on the ISS. Audiovisuelle Veröffentlichung, SPIE. https://doi.org/10.1117/12.2229473

@misc{1cb9d49e00a14e52b530df627ff0face,

title = "Development of a strontium optical lattice clock for the SOC mission on the ISS",

abstract = "The ESA mission {"}Space Optical Clock{"} project aims at operating an optical lattice clock on the ISS in approximately 2023. The scientific goals of the mission are to perform tests of fundamental physics, to enable space-assisted relativistic geodesy and to intercompare optical clocks on the ground using microwave and optical links. The performance goal of the space clock is less than 1 × 10 -17uncertainty and 1 × 10 -15τ -1/2 instability. Within an EU-FP7-funded project, a strontium optical lattice clock demonstrator has been developed. Goal performances are instability below 1 × 10 -15τ -1/2 and fractional inaccuracy 5 × 10 -17. For the design of the clock, techniques and approaches suitable for later space application are used, such as modular design, diode lasers, low power consumption subunits, and compact dimensions. The Sr clock apparatus is fully operational, and the clock transition in 88Sr was observed with linewidth as small as 9 Hz. ",

keywords = "atomic clock, ISS, Optical clock, Space Optical Clock, strontium, transportable clock",

author = "S. Origlia and S. Schiller and Pramod, \{M. S.\} and L. Smith and Y. Singh and W. He and S. Viswam and D. {\'S}wierad and Hughes, \{Thomas J.R.\} and K. Bongs and Uwe Sterr and Christian Lisdat and S. Vogt and S. Bize and J. Lodewyck and \{Le Targat\}, R. and D. Holleville and B. Venon and Patrick Gill and G. Barwood and Hill, \{I. R.\} and Y. Ovchinnikov and Kulosa, \{Andr{\'e} Philipp\} and Wolfgang Ertmer and Rasel, \{Ernst Maria\} and J. Stuhler and W. Kaenders",

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month = apr,

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doi = "10.1117/12.2229473",

language = "English",

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}

Origlia, S, Schiller, S, Pramod, MS, Smith, L, Singh, Y, He, W, Viswam, S, Świerad, D, Hughes, TJR, Bongs, K, Sterr, U, Lisdat, C, Vogt, S, Bize, S, Lodewyck, J, Le Targat, R, Holleville, D, Venon, B, Gill, P, Barwood, G, Hill, IR, Ovchinnikov, Y, Kulosa, AP, Ertmer, W, Rasel, EM, Stuhler, J & Kaenders, W, Development of a strontium optical lattice clock for the SOC mission on the ISS, 2016, Audiovisuelle Veröffentlichung, SPIE. https://doi.org/10.1117/12.2229473

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T1 - Development of a strontium optical lattice clock for the SOC mission on the ISS

AU - Origlia, S.

AU - Schiller, S.

AU - Pramod, M. S.

AU - Smith, L.

AU - Singh, Y.

AU - He, W.

AU - Viswam, S.

AU - Świerad, D.

AU - Hughes, Thomas J.R.

AU - Bongs, K.

AU - Sterr, Uwe

AU - Lisdat, Christian

AU - Vogt, S.

AU - Bize, S.

AU - Lodewyck, J.

AU - Le Targat, R.

AU - Holleville, D.

AU - Venon, B.

AU - Gill, Patrick

AU - Barwood, G.

AU - Hill, I. R.

AU - Ovchinnikov, Y.

AU - Kulosa, André Philipp

AU - Ertmer, Wolfgang

AU - Rasel, Ernst Maria

AU - Stuhler, J.

AU - Kaenders, W.

PY - 2016/4/29

Y1 - 2016/4/29

N2 - The ESA mission "Space Optical Clock" project aims at operating an optical lattice clock on the ISS in approximately 2023. The scientific goals of the mission are to perform tests of fundamental physics, to enable space-assisted relativistic geodesy and to intercompare optical clocks on the ground using microwave and optical links. The performance goal of the space clock is less than 1 × 10 -17uncertainty and 1 × 10 -15τ -1/2 instability. Within an EU-FP7-funded project, a strontium optical lattice clock demonstrator has been developed. Goal performances are instability below 1 × 10 -15τ -1/2 and fractional inaccuracy 5 × 10 -17. For the design of the clock, techniques and approaches suitable for later space application are used, such as modular design, diode lasers, low power consumption subunits, and compact dimensions. The Sr clock apparatus is fully operational, and the clock transition in 88Sr was observed with linewidth as small as 9 Hz.

AB - The ESA mission "Space Optical Clock" project aims at operating an optical lattice clock on the ISS in approximately 2023. The scientific goals of the mission are to perform tests of fundamental physics, to enable space-assisted relativistic geodesy and to intercompare optical clocks on the ground using microwave and optical links. The performance goal of the space clock is less than 1 × 10 -17uncertainty and 1 × 10 -15τ -1/2 instability. Within an EU-FP7-funded project, a strontium optical lattice clock demonstrator has been developed. Goal performances are instability below 1 × 10 -15τ -1/2 and fractional inaccuracy 5 × 10 -17. For the design of the clock, techniques and approaches suitable for later space application are used, such as modular design, diode lasers, low power consumption subunits, and compact dimensions. The Sr clock apparatus is fully operational, and the clock transition in 88Sr was observed with linewidth as small as 9 Hz.

KW - atomic clock

KW - ISS

KW - Optical clock

KW - Space Optical Clock

KW - strontium

KW - transportable clock

UR - https://www.scopus.com/pages/publications/84984950089

U2 - 10.1117/12.2229473

DO - 10.1117/12.2229473

M3 - Audiovisual publication

PB - SPIE

T2 - Quantum Optics

Y2 - 5 April 2016 through 7 April 2016

ER -

Development of a strontium optical lattice clock for the SOC mission on the ISS

Abstract

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Development of a strontium optical lattice clock for the SOC mission on the ISS

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