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Träfflista för sökning "WFRF:(Neri W.) "

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Enumeration	Reference	Cover	Find
1.	2017 In: Physical Review D. - 2470-0010 .- 2470-0029. ; 96:2 Journal article (peer-reviewed)
2.	2021 swepub:Mat__t
3.	Bravo, L, et al. (author) 2021 swepub:Mat__t
4.	Tabiri, S, et al. (author) 2021 swepub:Mat__t
5.	2021 swepub:Mat__t
6.	Abadie, J., et al. (author) Implementation and testing of the first prompt search for gravitational wave transients with electromagnetic counterparts 2012 In: Astronomy & Astrophysics. - : EDP Sciences. - 0004-6361 .- 1432-0746. ; 539 Journal article (peer-reviewed)abstract Aims. A transient astrophysical event observed in both gravitational wave (GW) and electromagnetic (EM) channels would yield rich scientific rewards. A first program initiating EM follow-ups to possible transient GW events has been developed and exercised by the LIGO and Virgo community in association with several partners. In this paper, we describe and evaluate the methods used to promptly identify and localize GW event candidates and to request images of targeted sky locations. Methods. During two observing periods (Dec. 17, 2009 to Jan. 8, 2010 and Sep. 2 to Oct. 20, 2010), a low-latency analysis pipeline was used to identify GW event candidates and to reconstruct maps of possible sky locations. A catalog of nearby galaxies and Milky Way globular clusters was used to select the most promising sky positions to be imaged, and this directional information was delivered to EM observatories with time lags of about thirty minutes. A Monte Carlo simulation has been used to evaluate the low-latency GW pipeline's ability to reconstruct source positions correctly. Results. For signals near the detection threshold, our low-latency algorithms often localized simulated GW burst signals to tens of square degrees, while neutron star/neutron star inspirals and neutron star/black hole inspirals were localized to a few hundred square degrees. Localization precision improves for moderately stronger signals. The correct sky location of signals well above threshold and originating from nearby galaxies may be observed with similar to 50% or better probability with a few pointings of wide-field telescopes.
7.	Jakobsson, J., et al. (author) Guidelines for the use and interpretation of assays for monitoring autophagy (4th edition)1 2021 In: Autophagy. - : Informa UK Limited. - 1554-8635 .- 1554-8627. ; 17:1, s. 1-382 Journal article (peer-reviewed)
8.	Klionsky, Daniel J, et al. (author) Guidelines for the use and interpretation of assays for monitoring autophagy (3rd edition). 2016 In: Autophagy. - : Informa UK Limited. - 1554-8635 .- 1554-8627. ; 12:1, s. 1-222 Journal article (peer-reviewed)
9.	Glasbey, JC, et al. (author) 2021 swepub:Mat__t
10.	Aasi, J., et al. (author) Parameter estimation for compact binary coalescence signals with the first generation gravitational-wave detector network 2013 In: Physical Review D (Particles, Fields, Gravitation and Cosmology). - 1550-2368. ; 88:6 Journal article (peer-reviewed)abstract Compact binary systems with neutron stars or black holes are one of the most promising sources for ground-based gravitational-wave detectors. Gravitational radiation encodes rich information about source physics; thus parameter estimation and model selection are crucial analysis steps for any detection candidate events. Detailed models of the anticipated waveforms enable inference on several parameters, such as component masses, spins, sky location and distance, that are essential for new astrophysical studies of these sources. However, accurate measurements of these parameters and discrimination of models describing the underlying physics are complicated by artifacts in the data, uncertainties in the waveform models and in the calibration of the detectors. Here we report such measurements on a selection of simulated signals added either in hardware or software to the data collected by the two LIGO instruments and the Virgo detector during their most recent joint science run, including a "blind injection'' where the signal was not initially revealed to the collaboration. We exemplify the ability to extract information about the source physics on signals that cover the neutron-star and black-hole binary parameter space over the component mass range 1M(circle dot)-25M(circle dot) and the full range of spin parameters. The cases reported in this study provide a snapshot of the status of parameter estimation in preparation for the operation of advanced detectors.

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Type of publication: journal article (66); research review (1)

Type of content: peer-reviewed (67)

Author/Editor: Shao, Lijing (34); Kim, Jae-Young (34); Akiyama, Kazunori (34); Alberdi, Antxon (34); Alef, Walter (34); Barrett, John (34); show more...; Bintley, Dan (34); Blackburn, Lindy (34); Brissenden, Roger (34); Britzen, Silke (34); Bronzwaer, Thomas (34); Chen, Ming Tang (34); Chen, Yongjun (34); Cordes, James M. (34); Cui, Yuzhu (34); Davelaar, Jordy (34); Desvignes, Gregory (34); Eatough, Ralph P. (34); Gammie, Charles F. (34); Gentaz, Olivier (34); Gu, Minfeng (34); Inoue, Makoto (34); James, David J. (34); Jung, Taehyun (34); Karami, Mansour (34); Kawashima, Tomohisa (34); Koay, Jun Yi (34); Koyama, Shoko (34); Lee, Sang Sung (34); Li, Zhiyuan (34); Liuzzo, Elisabetta (34); Lo, Wen-Ping (34); Mao, Jirong (34); Mizuno, Yosuke (34); Mizuno, Izumi (34); Moran, James M. (34); Moriyama, Kotaro (34); Natarajan, Iniyan (34); Okino, Hiroki (34); Pietu, Vincent (34); PopStefanija, Aleksa ... (34); Preciado-Lopez, Jorg ... (34); Ramakrishnan, Venkat ... (34); Raymond, Alexander W ... (34); Ripperda, Bart (34); Ros, Eduardo (34); Rygl, Kazi L. J. (34); Sanchez-Arguelles, D ... (34); Sasada, Mahito (34); Torne, Pablo (34); show less...

University: Chalmers University of Technology (38); Karolinska Institutet (17); Lund University (16); University of Gothenburg (6); Uppsala University (4); Umeå University (3); show more...; Stockholm University (3); Linköping University (2); Swedish University of Agricultural Sciences (2); Royal Institute of Technology (1); Linnaeus University (1); show less...

Language: English (72)

Research subject (UKÄ/SCB): Natural sciences (54); Engineering and Technology (9); Medical and Health Sciences (9)

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