Clock noise removal in LISA

William Klipstein; Peter G. Halverson; Robert Peters; Rachel Cruz; Daniel Shaddock

doi:10.1063/1.2405061

Clock noise removal in LISA

William Klipstein^*, Peter G. Halverson, Robert Peters, Rachel Cruz, Daniel Shaddock

^*Corresponding author for this work

Research output: Contribution to journal › Article › peer-review

18 Citations (Scopus)

Abstract

The relative motion of the LISA spacecraft will Doppler shift the laser frequencies by around 15 MHz. These Doppler shifts introduce sensitivity to the phase noise of the measurement's master clock. Using the most stable clocks available this effect would degrade the LISA sensitivity by more than a factor of 100. This clock noise can be removed in post-processing if the clock phase can be transferred between the spacecraft with a fidelity of a few microcycles/Hz. In the LISA baseline design, the clock phase is phase modulated onto the science lasers exchanged between spacecraft. Interference between the outgoing sidebands and the incoming sidebands contains the information necessary to remove the clock noise in post-processing. The details of the LISA clock noise removal scheme are described and results of a recent successful demonstration of the clock noise transfer are presented.

Original language	English
Pages (from-to)	312-318
Number of pages	7
Journal	AIP Conference Proceedings
Volume	873
DOIs	https://doi.org/10.1063/1.2405061
Publication status	Published - 2006
Externally published	Yes

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title = "Clock noise removal in LISA",

abstract = "The relative motion of the LISA spacecraft will Doppler shift the laser frequencies by around 15 MHz. These Doppler shifts introduce sensitivity to the phase noise of the measurement's master clock. Using the most stable clocks available this effect would degrade the LISA sensitivity by more than a factor of 100. This clock noise can be removed in post-processing if the clock phase can be transferred between the spacecraft with a fidelity of a few microcycles/Hz. In the LISA baseline design, the clock phase is phase modulated onto the science lasers exchanged between spacecraft. Interference between the outgoing sidebands and the incoming sidebands contains the information necessary to remove the clock noise in post-processing. The details of the LISA clock noise removal scheme are described and results of a recent successful demonstration of the clock noise transfer are presented.",

keywords = "Clock noise, Gravity wave, LISA",

author = "William Klipstein and Halverson, {Peter G.} and Robert Peters and Rachel Cruz and Daniel Shaddock",

year = "2006",

doi = "10.1063/1.2405061",

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journal = "AIP Conference Proceedings",

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T1 - Clock noise removal in LISA

AU - Klipstein, William

AU - Halverson, Peter G.

AU - Peters, Robert

AU - Cruz, Rachel

AU - Shaddock, Daniel

PY - 2006

Y1 - 2006

N2 - The relative motion of the LISA spacecraft will Doppler shift the laser frequencies by around 15 MHz. These Doppler shifts introduce sensitivity to the phase noise of the measurement's master clock. Using the most stable clocks available this effect would degrade the LISA sensitivity by more than a factor of 100. This clock noise can be removed in post-processing if the clock phase can be transferred between the spacecraft with a fidelity of a few microcycles/Hz. In the LISA baseline design, the clock phase is phase modulated onto the science lasers exchanged between spacecraft. Interference between the outgoing sidebands and the incoming sidebands contains the information necessary to remove the clock noise in post-processing. The details of the LISA clock noise removal scheme are described and results of a recent successful demonstration of the clock noise transfer are presented.

AB - The relative motion of the LISA spacecraft will Doppler shift the laser frequencies by around 15 MHz. These Doppler shifts introduce sensitivity to the phase noise of the measurement's master clock. Using the most stable clocks available this effect would degrade the LISA sensitivity by more than a factor of 100. This clock noise can be removed in post-processing if the clock phase can be transferred between the spacecraft with a fidelity of a few microcycles/Hz. In the LISA baseline design, the clock phase is phase modulated onto the science lasers exchanged between spacecraft. Interference between the outgoing sidebands and the incoming sidebands contains the information necessary to remove the clock noise in post-processing. The details of the LISA clock noise removal scheme are described and results of a recent successful demonstration of the clock noise transfer are presented.

KW - Clock noise

KW - Gravity wave

KW - LISA

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U2 - 10.1063/1.2405061

DO - 10.1063/1.2405061

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SN - 0094-243X

VL - 873

SP - 312

EP - 318

JO - AIP Conference Proceedings

JF - AIP Conference Proceedings

ER -

Clock noise removal in LISA

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