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Literature DB >> 21081919

Quantum metrology for gravitational wave astronomy.

Roman Schnabel¹, Nergis Mavalvala, David E McClelland, Ping K Lam.

Abstract

Einstein's general theory of relativity predicts that accelerating mass distributions produce gravitational radiation, analogous to electromagnetic radiation from accelerating charges. These gravitational waves (GWs) have not been directly detected to date, but are expected to open a new window to the Universe once the detectors, kilometre-scale laser interferometers measuring the distance between quasi-free-falling mirrors, have achieved adequate sensitivity. Recent advances in quantum metrology may now contribute to provide the required sensitivity boost. The so-called squeezed light is able to quantum entangle the high-power laser fields in the interferometer arms, and could have a key role in the realization of GW astronomy.

Year: 2010 PMID： 21081919 DOI： 10.1038/ncomms1122

Source DB: PubMed Journal: Nat Commun ISSN： 2041-1723 Impact factor: 14.919

35 in total

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5. A squeezed light source operated under high vacuum.

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6. Optimal adaptive control for quantum metrology with time-dependent Hamiltonians.

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7. Symmetric Logarithmic Derivative of Fermionic Gaussian States.

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10 in total