A next-generation worth wide quantum sensor network with horizontal Atomic locks (Q84283): Difference between revisions
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Property / beneficiary: Nicolaus Copernicus University in Toruń / rank | |||
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Revision as of 18:57, 9 June 2020
Project in Poland financed by DG Regio
Language | Label | Description | Also known as |
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English | A next-generation worth wide quantum sensor network with horizontal Atomic locks |
Project in Poland financed by DG Regio |
Statements
3,180,310.0 zloty
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3,180,310.0 zloty
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100.0 percent
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1 April 2018
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31 March 2021
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UNIWERSYTET MIKOŁAJA KOPERNIKA W TORUNIU
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The sensor network made of optical atomic clocks and methods developed within this project will have spin-off benefits in a plethora of applications, including natural resource detection, navigation, oceanography, gravitational wave detection and astronomy. In particular, we have recently demonstrated that a single optical atomic clock is sensitive to variations in the fine-structure constant. We will establish an Earth-scale observatory for detecting dark matter in the form of topological defects and oscillating scalar fields and test existing hypotheses of new fields beyond the Standard Model at an unprecedented level of accuracy. We will also investigate general relativistic justification of the dark matter hypothesis. Our detection thresholds will be achieved by applying our new approach to synchronize already existing optical atomic clocks. The clocks within the proposed global network do not have to be directly linked via dedicated fibre links but only via an internet cloud. (Polish)
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The sensor network made of optical carriers and methods used to experience in this project will have more resources to be produced by means of detection, navigation, Oceanography, gravitational work investigation and astronomies.In particular, in have recentrally demonstrated that a single horizontal Atomic clock is sentive to variations in the final structure consensus.As a result of the provision of a model at an unprecedented level of accuracy.In the will investigation of the dark matter hypotasis.Our investigative measure will be achieved to be achieved by extending our existing approach to synchronisation.The clacks within the proposed global network do not have to be deployed via an internet cloud. (English)
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Identifiers
POIR.04.04.00-00-40F8/17
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