Homepage of
Raffaele Flaminio
Laboratoire d’Annecy de Physique des Particules
CNRS/IN2P3
9 Chemin de Bellevue - BP110
74941, Annecy-le-Vieux, Annecy, France
Tel. +33 (0)4 50 09 55 13
email : raffaele.flaminio AT lapp.in2p3.fr
https://www.linkedin.com/in/raffaele-flaminio-a98775ab/
https://orcid.org/0000-0003-4462-6737
Publications
Journal Papers
1. C. Bradaschia et al.:"Sensitivity of a rigid small
interferometer in the 10 Hz frequency region", Phys. Lett. A 163 (1992)
15-20
2. L.E. Holloway et al.: "A coil system for VIRGO providing a uniform
magnetic field gradient", Phys. Lett. A 171 (1992) 162-166
3. S. Braccini et al.:"An improvement in the VIRGO Super
Attenuator for interferometric detection of gravitational waves: The use of
magnetic anti spring", Rev. Sci. Instrum. 64 (2), (1993) 310-313
4. C. Bradaschia et al.: "Design and operation of an interferometer developed to test
the suspensions of the VIRGO gravitational wave antenna",Phys. Lett. A 173 (1993) 252-256
5. R.Flaminio et al.: "Fast trigger algorithms for binary
coalescences", Astroparticle Phys. 2 (1994)
235-248,
6. A.Bazan et al. "A VME based imaging system for the Virgo Project", Astroparticle Phys. 2
(1994) 229-234
7. S.Braccini et al.:" Test of VIRGO prototype vacuum system" Vuoto 23 3 (1994) 41-44
8. S.Braccini et al: "Improvements at low frequency in the interferometric test of
the suspensions of the Virgo gravitational wave antenna", Phys. Lett. A 184 (1994) 179-183
9. H.Peng et al., "Test of an interferometric sapphire transducer with the
super attenuator of the VIRGO gravitational antenna", Phys. Lett. A 189 (1994) 141-144
10. S.Braccini et al. "Vertical and Horizontal transfer function measurements on a
Magnetic Gas Spring", Rev. Sci. Instrum. 66 (1) (1995) 115-119
11. S.Braccini et al., "Low noise wide band accelerometer using an inductive
displacement sensor", Rev. Sci. Instrum. 66 (3) (1995) 2672-2676
12. S.Braccini et al., "Improvements on the test mass suspension of the VIRGO laser
interferometer gravitational wave detector", Phys. Lett. A 199 (1995) 307-314
13. R.Flaminio and H.Heitmann, "Longitudinal control of an
interferometer for the detection of gravitational waves", Physics Letters
A 214
(1996) 112-122
14. S.Braccini et al., "Seismic vibrations mechanical filters for the gravitational
waves detector VIRGO", Review of Scientific Instruments 67 (8)
(1996) 2899-2902
15. B.Caron et al., "A preliminary study of the locking of an interferometer for
gravitational wave detection", Astroparticle
Physics 6 (1997) 245-256
16. B. Caron et al., ‘The Virgo
interferometer’ Classical
and quantum Gravity 14 6 (1997) 1461-1469
17. M.Beccaria et al., "Extending the VIRGO gravitational wave detection band down
to a few Hz: metal blade spring and magnetic antisprings
", Nuclear Instruments & Methods in Phys Res. A 394 (1997) 397-408
18. S.Braccini et al., "Mechanical filters for the gravitational wave detector
VIRGO: performance of a two stage suspension", Review of Scientific
Instruments 68 10 (1997) 3904
19. F.Bellachia et al., "A VME based CCD imaging system for the VIRGO interferometer
control", Nuclear Instruments & Methods in Phys. Res.A
413 (1998) 151
20. B.Caron et al., "SIESTA, a Time Domain, General Purpose Simulation Program
for the VIRGO Experiment", Astroparticle Physics
10 (1999) 369
21. AMS coll., "Search for anti-helium cosmic rays", Phys.Lett.B 461 (1999) 387-396
22. AMS coll., "Protons in near earth orbit", Phys.Lett.B
472 (2000) 215-226
23.
D.Buskulic et al.,
"Estimation of the needed accuracy for the calibration of the Virgo
interferometer in relation to the detection of coalescing binaries", Astroparticle Physics 15 (2001) 383-389
24. A.Bozzi et al., "Last stage control and mechanical transfer function of the
Virgo suspensions", Review of Scientific
Instruments 73 5 (2002) 2143-2149
25.
F.Beauville et al.,
"A CCD camera based position control of a suspended optical bench used in
a gravitational wave detector", Review of
Scientific Instruments 74 4 (2003) 2564-2569
26. F. Acernese et al. "First locking of the Virgo central area with suspension
hierarchical control" Astroparticle Physiscs 20 (2004) 629-640
27. F. Acernese et al. "A local control for the test masses of the Virgo
gravitational wave detector" Astroparticle
Physics 20 (2004) 617-628
28. F. Acernese et al., "The commissioning of the Central Interferometer of the Virgo
gravitational wave detector" Astroparticle
Physics 21 (2004) 1-22
29. F. Acernese et al. ”Lock acquisition of the central interferometer of the Virgo
gravitational wave detector” Astroparticle Physics 21
(2004) 465-477
30. S. Braccini et al. ”Measurement of the seismic
attenuation performance of the VIRGO Superattenuator”
Astroparticle Physics 23 (2005) 557-565
31. F. Beauville et al. ”Variable placement of
templates technique in a 2-D parameter space for binary inspiral
searches” Classical and Quantum Gravity 22 (2005) 4285-4309
32. F.Beauville et al., Improvement in the shot noise of a laser interferometer
gravitational wave detector by means of an output mode-cleaner’ Classical and
quantum Gravity 23 (2006) 3235-50
33. F.Acernese et al.. ‘Length sensing and control in the Virgo
gravitational wave interferometer’, IEEE-Transaction-on-Instrumentation and
Measurement 55 (2006) 1985-95
34. F.Acernese et al., ‘The Virgo interferometric gravitational antenna’,
Optics-and-Lasers-in-Engineering, 45 478-87, 2007
36. F.Acernese et al., ‘Status of coalescing binaries search activities in Virgo’, Class.Quant.Grav. 24 5767-75, 2007
37. F. Acernese et al., ‘Lock acquisition of the Virgo gravitational wave detector’, Astroparticle Physics 30 (2008) 29–38
38.
F. Acernese et al., ‘First joint gravitational wave search by
the AURIGA-EXPLORER-NAUTILUS-Virgo Collaboration’, Classical and Quantum
Gravity 25 (2008) 205007
39. F.Acernese et al., ‘In-vacuum optical isolation changes by heating in a Faraday
isolator’, Applied Optics, Vol. 47, Issue 31, pp. 5853-5861
40. F. Acernese et al., ‘Search for gravitational waves associated with GRB050915a using
the Virgo detector’, Class. Quantum
Grav. 25 (2008)
225001
41.
F. Acernese et al.; ‘Gravitational
wave burst search in the Virgo C7 data’, Classical and quantum Gravity 26 8
(2009) 085009
42.
F. Acernese et al.; ’Laser with in-loop relative frequency
stability of 1.0x10-21 on 100 ms time scale for
gravitational-wave detection’, Physical Review A 79 5 (2009) 053824
43.
B. Sassolas et al.; ‘Masking technique for coating thickness
control on large and strongly curved aspherical optics’, Applied Optics 48 19
(2009) 3760-3765
44.
Abbott BP et al.;’ An upper limit on the
stochastic gravitational-wave background of cosmological origin’, Nature 460
7258 (2009) 990-994
45.
F. Acernese et al;
‘Cleaning the Virgo sampled data for the search of periodic sources of
gravitational waves’, Classical and Quantum Gravity 26 20 (2009) 204002
46.
S.Hild et al.; ‘A Xylophone Configuration for a third Generation Gravitational Wave
Detector’ Classical and Quantum Gravity 27 015003
(2010)
47.
Acernese F. et al.;’Performance of the Virgo interferometer longitudinal
control system’ Astroparticle Physics 33 2 75-80
(2010)
48. Acernese F
et al.; ‘Measurements of Superattenuator seismic isolation
by Virgo interferometer’ Astroparticle Physics 33
3 182-189 (2010)
49.
Acernese F. et al.;
‘Automatic Alignment for the first science run of the Virgo interferometer’ Astroparticle Physics 33 3 131-139 (2010)
50.
Abbott BP
‘Searches for gravitational waves from known pulsars with science run 5 LIGO
data’ Astrophysical Journal 713 1 671-685 (2010)
51.
Abadie J et al.; ‘All sky search for gravitational wave bursts in the first joint
LIGO-GEO-Virgo run’ Physical Review D 81 10 102001 (2010)
52.
Abadie J. et al.;’Search for gravitationa-wave
inspiral signals associated with short gamma-ray
bursts during LIGO’s fifth and Virgo’s first science run’ Astrophysical Journal
715 2 1453-1461 (2010)
53.
Abbott BP et al; ‘Search for
gravitational-wave burst associated with Gamma-ray bursts using data from LIGO
science run 5 and Virgo science run
54.
Accadia T. et al;
‘Commissioning status of the Virgo interferometer’ Classical and Quantum
Gravity 27 14 149801 (2010)
55. Accadia T
et al.;’In-vacuum Faraday
isolation remote tuning’ Applied Optics 49 25 4780-4790
(2010)
56.
Abadie J. et al.;
‘Predictions for the rates of compact binary coalescence observable by ground
based gravitational wave detectors’ Classical and Quantum Gravity 27 17 173001
(2010)
57.
Abadie J et al.; ‘Search
for gravitational waves from compact binary coalescence in LIGO and Virgo data
from S5 and VSR1’ Physical Review D 82 10 102001 (2010)
58.
Accadia et al.;
‘Automatic Alignment system during the second science run of the Virgo
interferometer’ Astroparticle Physics 34 6 327-332
(2011)
59.
Accadia et al.: ‘The
seismic Superattenuators of the Virgo gravitational
waves interferometer’ Journal of low frequency vibration and active
control 30 1 63-79 (2011)
60.
Accadia et al.;
‘Calibration and sensitivity of the Virgo detector during its second science
run’ Classical and Quantum Gravity 28 2 025005 (2011)
61.
Accadia et al.;
‘Performance of the Virgo interferometer longitudinal control system during the
second science run’ Astroparticle Physics 34
7 521-527 (2011)
62.
L. Pinard et al.; ‘Towards a new generation of
low-losses mirrors for the advanced gravitational waves interferometers’ Optics
Letters 36 8 1407-1409 (2011)
63.
Sassolas B. et al : ‘Twin mirrors for laser
interferometric gravitational-wave detectors’ Applied Optics 50
13 1894-1899 (2011)
64.
S. Hild et al. : ‘Sensitivity studies for
third-generation gravitational wave observatories’ Classical and quantum
Gravity 28 9 094013 (2011)
65.
Abadie et al :
‘Search for gravitational waves from binary black hole inspiral, merger and ringdown’ Physical Review D 83
12 122005 (2011)
66.
Abadie et al.:
‘Search for gravitational wave bursts from six magnetars’
Astrophysucal Journal Letters 734 2 L35 (2011)
67.
Abadie et al.: ‘Beating the spin down limit on gravitational wave emission from
the Vela pulsars’ Astrophysical Journal 737 2 93 (2011)
68.
Chen X. U. et al.: ‘Rayleigh
scattering in fused silica samples for gravitational wave detectors’ Optics Communications
284 19 4732 (2011)
69.
Accadia et al: ‘The Virgo interferometer for gravitational wave detection’
International Journal of Modern Physics D 20 10 2075 (2011)
70.
Accadia et al.: ‘A
state observer for the Virgo inverted pendulum’ Raview
of Scientific Instruments 82 9 094502 (2011)
71.
Kuhn A et al.: ‘A micropillar for cavity optomechanics’
Applied Physics Letters 99 12 121103 (2011)
72. Verlot P.
et al.: ‘Towards the experimental demonstration of
quantum radiation pressure noise’ Comptes rendus physique 12 9-10 826-836
(2011)
73. Abadie et al.: ‘Directional limits on persistent gravitational waves using LIGO S5 science data’ Physical Review
Letters 107 27 271102 (2011)
74.
Bonis J. et al.,
’Non-planar four-mirror optical cavity for high intensity gamma ray flux production
by pulsed laser beam Compton scattering off GeV-electrons’, Journal of
instrumentation 7 P01017 (2012)
75.
Akagi T. et al.,
’Production of gamma rays by pulsed laser beam Compton scattering off
GeV-electrons using a non-planar four mirror optical cavity’, Journal of
instrumentation 7 P01021 (2012)
76.
Abadie J. et al. :
‘All-sky search for periodic gravitational waves in the full S5 LIGO data’
Physical Review D 85 2 022001 (2012)
77.
Accadia T. et al.: ‘Characterization
of the Virgo seismic environment’ Classical and Quantum Gravity 29 2 025005
(2012)
78.
Accadia T. et al., ’Virgo: a laser interferometer to detect gravitational waves’,
Journal of instrumentation 7 P03012 (2012)
79.
Abadie J. et al., ‘Implementation and testing of the first prompt search for
gravitational wave transients with electromagnetic counterparts’ Astronomy
& Astrophysics 539 A124 (2012)
80.
Abadie J. et al.,
‘Search for gravitational waves from low mass compact binary coalescence in
LIGO’s sixth science run and Virgo’s science runs 2 and 3’, Physical Review D
85 8 082002 (2012)
81.
Abadie J. et al., ‘First
low-latency LIGO plus Virgo search for binary inspirals
and their electromagnetic counterparts’ Astronomy & Astrophysics 541 A155
(2012)
82.
Abadie J. et al.,
‘Search for gravitational waves from intermediate mass binary black holes’,
Physical Review D 85 10 102004 (2012)
83.
Abadie J. et al.; ‘Upper
limits on stochastic gravitational wave background using LIGO and Virgo
interferometers at 600-1000 Hz’ Physical Reviewed D 85 12 122001 (2012)
84.
Abadie J. et al. ; ‘All-sky search for gravitational-wave bursts in the second joint LIGO-Virgo run’
Physical Review D 85 12 122007 (2012)
85.
Abadie J. et al.; ‘The
characterization of Virgo data and its impact on gravitational-wave searches’
Classical and quantum Gravity 29 15 155002 (2012)
86.
Abadie J. et al.,
‘Search for Gravitational Waves Associated with Gamma-Ray Bursts during LIGO
Science Run 6 and Virgo Science Runs 2 and 3’ The Astrophysical Journal 760 1 12
(2012)
87.
Sathyaprakash B. et
al.; ‘Scientific objectives of Einstein Telescope’ Classical and Quantum
Gravity 29 12 124013 (2012)
88.
Evans P. A. et
al.; ‘SWIFT FOLLOW-UP OBSERVATIONS OF CANDIDATE GRAVITATIONAL-WAVE TRANSIENT EVENTS’
Astrophysical Journal Supplement Series 203 2 28 (2012)
89.
Aasi J. et al.;
‘Search for gravitational waves from binary black hole inspiral,
merger, and ringdown in LIGO-Virgo data from
2009-2010’ Physical Review D 87
2 022002 (2013)
90.
Aasi J. et al.; ‘Einstein@Home all-sky search for periodic gravitational
waves in LIGO S5 data’ Physical Review D
87 4 042001 (2013)
91.
Accadia T. et al.;
’Central heating radius of curvature correction (CHRoCC)
for use in large scale gravitational wave interferometers’ Classical and
Quantum Gravity 30 5
055017 (2013)
92.
Degallaix J. et al.; ‘Bulk
optical absorption of high resistivity silicon at 1550 nm’, Optics Letters 38
12 2047-2049 (2013)
93.
Torres F. A.;
‘High quality factor mg-scale silicon mechanical resonators for 3-mode acoustic
parametric amplifiers’ Journal of Applied Physics 114 1 014506 (2013)
94.
Bonnand R. et al.; ‘Large
mirror surface control by corrective coating’ Classical and quantum Gravity 30
15 155014 (2013)
95.
Aasi J. et al.;
‘Parameter estimation for compact binary coalescence signals with the first
generation gravitational-wave detector network’ Physical Review D 88 6 062001
(2013)
96.
M. Granata et al., ‘Cryogenic measurements of mechanical loss
of high-reflectivity coating and estimation of thermal noise’, Optics Letters
38 24 5268-5271 (2013)
97.
S. Adrián-Martínez
et al., ‘A first search for coincident gravitational waves and high energy
neutrinos using LIGO, Virgo and ANTARES data from 2007’ Journal of Cosmology and Astroparticle
Physics 06 008 (2013)
98. J. Aasi et al., 'Directed
search for continuous gravitational waves from the Galactic center', Phys. Rev. D 88 102002 (2013)
99.
A. Börzsönyi, R. Chiche, E. Cormier,
R. Flaminio, P. Jojart, C. Michel, K. Osvay, L. Pinard, V. Soskov, A. Variola and F. Zomer, 'External cavity enhancement of picosecond pulses
with 28,000 cavity finesse', Applied Optics 52 34 8376-8380 (2013)
100. Aasi J. et al., ‘Search for long-lived gravitational-wave
transients coincident with long gamma-ray bursts’ Physical Review D 88 12 122004
(2013)
101. Kuhn A. etal., ‘Free-space
cavity optomechanics in a cryogenic environment’
Applied Physics Letters 104 4 044102 (2014)
102. Liu J. et al, ‘Near-self-imaging cavity for the
three-mode optoacoustic parametric amplifiers using silicon microresonators’
Applied Optics 53 5 841-849 (2014)
103. Aasi J. et al, ‘First searches for optical counterparts to
gravitational-wave candidates events’ Astrophysical Journal Supplement Series
211 1 7 (2014)
104. Aasi J. et al., ‘Constraints on cosmic strings for the
LIGO-Virgo gravitational-wave detectors’ Physical Review Letters 112 13 131101
(2014)
105. Aasi J. et al., ‘Gravitational waves from known pulsars:
results from the initial detector era’ Astrophysical Journal 785 2 119 (2014)
106. Aasi J. et al, ‘Application of a Hough search for
continuous gravitational waves on data from the fifth LIGO science run’
Classical and Quantum Gravity 31 8 085014 (2014)
107. Li T. et al, ‘Measurement of mechanical thermal noise
and energy dissipation in optical dielectric coatings’ Physical Review D 89 9
092004 (2014)
108. Aasi J. et al, ‘Search for gravitational wave ring-down
from perturbed intermediate mass black holes in LIGO-Virgo data from 2005-2010’
Physical Review D 89 10 102006 (2014)
109. Aasi J. et al, ‘The NINJA-2 project: detecting and characterizing
gravitational waveforms modelled using numerical binary black hole simulations’
Classical and Quantum Gravity 31 11 115004 (2014)
110. Aasi et al., ‘Search for gravitational radiation from
intermediate mass black hole binaries in data from the second LIGO-Virgo joint
science run” Physical Review D 89 12 122003 (2014)
111. Aasi J. et al, ‘Methods and results of a search for
gravitational waves associated with gamma-rays bursts using the GEO600, LIGO
and Virgo detectors’ Physical Review D 89 12 122004 (2014)
112. Aasi J. et al, ‘Search for gravitational waves associated
with gamma-ray bursts detected by the interplanetary network’ Physical Review
Letters 113 1 0111102 (2014)
113. Accadia T. et al, ‘Reconstruction of the gravitational wave
signal h(t) during the Virgo science runs and independent validation with a
photon calibrator’ Classical and Quantum Gravity 31 16 165013 (2014)
114. Aasi J. et al, ‘Implementation of an F-statistic all-sky
search for continuous gravitational waves in Virgo VSR1 data’ Classical and Quantum
Gravity 31 16 165014 (2014)
115. Aasi J. et al, ‘First all-sky search for continuous
gravitational waves from unknown sources in binary systems’ Physical Review D
90 6 (2014)
116. Degallaix J. et al, ‘Measurement of the optical absorption of
bulk silicon at cryogenic temperature and the implication for the Einstein
Telescope’ Classical and Quantum Gravity 31 18 185010 (2014)
117. Aasi J. et al., ‘Improved Upper Limits on the Stochastic
Gravitational-Wave Background from 2009–2010 LIGO and Virgo Data’ Physical Review
Letters 113 231101 (2014)
118. M. G. Aartsen et al.,
'Multimessenger search for sources of gravitational
waves and high-energy neutrinos: Initial results for LIGO-Virgo and IceCube' Physical Review D 90 102002 (2014)
119. Granata M. et al., ‘Internal friction and Young modulus
measurements on SiO2 and Ta2O5 films done with an ultra-high Q silicon wafer
suspension’ Archives of Metallurgy and Materials 60 1 365-370 (2015)
120. Aasi J. et al, ‘Searching for stochastic gravitational
waves using data from the two collocated LIGO Hanford detectors’ Physical
Review D 91 2 022003 (2015)
121. Makles K. et al., ‘2D photonic crystal opto-mechanical
nanoresonator’ Optics Letters 40 2 174-177 (2015)
122. Aasi et al., ‘Narrow-band search of continuous
gravitational wave signals from Crab and Vela pulsars in Virgo VSR4 data’
Physical Review D 91 2 022004 (2015)
123. Acernese F. et al, ‘Advanced Virgo: a second-generation
interferometric gravitational wave detector’ Classical and quantum Gravity 32 2
024001 (2015)
124. Chen X. et al., ‘Observation of three-mode parametric
instability’ Physical Review A 91 3 033832 (2015)
125. Aasi J. et al., ‘Directed search for gravitational waves
from Scorpius X-1 with initial LIGO data’ Physical Review D 91 6 062008 (2015)
126. Aasi J. et al., ‘Characterization of the LIGO detectors
during their sixth scientific run’ Classical and Quantum Gravity 32 11 115012
(2015)
127. Straniero N. et al., ‘Realistic loss estimation due to mirror
surfaces in a 10 meters-long high finesse Fabry-Perot
filter-cavity’ Optics Express 23 16 21455-21476 (2015)
128. Aasi J. et al., ‘Searches for continuous gravitational
waves from nine young supernovae remnants’ Astrophysical Journal 813 1 39
(2015)
129. Abbott et al.; 'Prospects for Observing and Localizing
Gravitational-Wave Transients with Advanced LIGO and Advanced Virgo', Living
Reviews in Relativity 19 (2016)
130. Granata M. et al.; 'Mechanical loss in state-of-the-art
amorphous optical coatings', Physical Review D 93 1 012007 (2016)
131. Abbott et al.; 'Observation of Gravitational Waves
from a Binary Black Hole Merger', Physical Review Letters 116 6 061102 (2016)
132. Abbott et al.; 'All-sky search for long-duration
gravitational wave transients with initial LIGO' Physical Review D 93 4 042005
(2016)
133. Aasi J. et al.; 'Search of the Orion spur for continuous
gravitational waves using a loosely coherent algorithm on data from LIGO
interferometers', Physical Review D 93 4 042006 (2016)
134. Abbott B.P. et
al.; ASTROPHYSICAL IMPLICATIONS OF THE BINARY BLACK HOLE MERGER GW150914' Astrophysical
Jounal Letters 818 2 L22 (2016)
135. Aasi J. et al.; ‘First low frequency all-sky search for
continuous gravitational wave signals’ Physical Review D 93 4 042007 (2016)
137. Abbott B. P. et al.; 'GW150914: Implications for the
Stochastic Gravitational-Wave Background from Binary Black Holes' Physical
Review Letters 116 13 131102 (2016)
138. Abbott B. P. et al.; 'GW150914: The Advanced LIGO
Detectors in the Era of First Discoveries' Physical Review Letters 116 13
131103 (2016)
139. Capocasa, Eleonora et al.;
'Estimation of losses in a 300 m filter cavity and quantum noise reduction in
the KAGRA gravitational-wave detector' Physical Review D 93 8 082004 (2016)
140. Abbott B. P. et al.; 'Tests of General Relativity with
GW150914' Physical Review Letters 116 22 221101 (2016)
141. Abbott B. P. et al.; 'GW150914: First results from the
search for binary black hole coalescence with Advanced LIGO' Physical Review D
93 12 112003 (2016)
142. Abbott B. P. et al.; 'Observing gravitational-wave
transient GW150914 with minimal assumptions' Physical Review D 93 12 122004
(2016)
143. Abbott B. P. et al.; 'Properties of the Binary Black
Hole Merger GW150914' Physical Review Letters 116 24 241102 (2016)
144. Liu, X. et al.; 'Laser frequency stabilization using
folded cavity and mirror reflectivity tuning' Optics Communications 369 84-88
(2016)
145. Abbott B. P. et al.; 'GW151226: Observation of
Gravitational Waves from a 22-Solar-Mass Binary Black Hole Coalescence'
Physical Review Letters 116 24 241103 (2016)
146. Abbott B. P. et al.; 'Search for transient gravitational
waves in coincidence with short-duration radio transients during 2007-2013'
Physical Review D 93 12 122008 (2016)
147. Adrian-Martinez S. et al.; 'High-energy neutrino
follow-up search of gravitational wave event GW150914 with ANTARES and IceCube' Physical Review D 93 12 122010 (2016)
148. Abbott B. P. et al.; 'Characterization of transient
noise in Advanced LIGO relevant to gravitational wave signal GW150914'
Classical and Quantum Gravity 33 13 134001 (2016)
149. Abbott B.P. et al.; 'LOCALIZATION AND BROADBAND
FOLLOW-UP OF THE GRAVITATIONAL-WAVE TRANSIENT GW 150914' astrophysical Journal
Letters 826 1 L13 (2016)
150. Abbott B. P. et al.; 'Comprehensive all-sky search for
periodic gravitational waves in the sixth science run LIGO data' Physical
Review D 94 4 042002 (2016)
151. Abbott B. P. et al.; 'Directly comparing GW150914 with
numerical solutions of Einstein's equations for binary black hole coalescence'
Physical Review D 94 6 064035 (2016)
152. Abbott B. P. et al.; ‘Binary black hole mergers in the
first Advanced LIGO observing run’ Physical Review X 6 041015 (2016)
153. Abbott B. P. et al.; ‘Improved Analysis of GW150914
Using a Fully Spin-Precessing Waveform Model’ Phys. Rev. X
6 041014 (2016)
154. Abbott B.P. et al.; 'First targeted search for
gravitational-wave bursts from core-collapse supernovae in data of
first-generation laser interferometer detectors' Physical Review D 94 10 102001
(2016)
155. Chaikovska I. et al.; 'High flux circularly polarized gamma beam
factory: coupling a Fabry-Perot optical cavity with
an electron storage ring' Scientific Reports 6 36569 (2016)
156. Abbott B. P. et al.; 'Results of the deepest all-sky
survey for continuous gravitational waves on LIGO S6 data running on the Einstein@Home volunteer distributed computing project'
Phys. Rev. D 94 102002 (2016)
157. Abbott B. P. et al.; 'UPPER LIMITS ON THE RATES OF
BINARY NEUTRON STAR AND NEUTRON STAR–BLACK HOLE MERGERS FROM ADVANCED LIGO'S
FIRST OBSERVING RUN' The Astrophysical Journal Letters 832 2 (2016)
158. Abbott B. P. et al.; 'THE RATE OF BINARY BLACK HOLE
MERGERS INFERRED FROM ADVANCED LIGO OBSERVATIONS SURROUNDING GW150914' The
Astrophysical Journal Letters 833 1 (2016)
159. Abbott B.P. et al.; 'The basic physics of the binary
black hole merger GW150914' ANNALEN DER PHYSIK 529 1-2 1600209 (2017)
160. Pinard L. et al.; 'Mirrors used in the LIGO interferometers
for first detection of gravitational waves' Applied Optics 56 4 C11-C15 (2017)
161. Abbott B. P. et al.; 'All-sky search for short
gravitational-wave bursts in the first Advanced LIGO run' Physical Review D 95
4 042003 (2017)
162. Zeidler S. et al.; 'Calculation method for light scattering
caused by multilayer coated mirrors in gravitational wave detectors' Optics
Express 25 5 4741-4760 (2017)
163. Abbott B. P. et al.; 'Directional Limits on Persistent
Gravitational Waves from Advanced LIGO's First Observing Run' Physical Review
Letters 118 12 121102 (2017)
164. Abbott B. P. et al.; 'Upper Limits on the Stochastic
Gravitational-Wave Background from Advanced LIGO's First Observing Run' Physical
Review Letters 118 12 121101 (2017)
165. Abbott B. P. et al.; 'First Search for Gravitational
Waves from Known Pulsars with Advanced LIGO' Astrophysical Journal 839 1 12
(2017)
166. Abbott B. P. et al.; 'Search for continuous
gravitational waves from neutron stars in globular cluster NGC 6544' Physical
Review D 95 8 082005 (2017)
167. Abbott B. P. et al.; 'Effects of waveform model
systematics on the interpretation of GW150914' Classical and Quantum Gravity 34
10 104002 (2017)
168. Abbott B. P. et al.; 'GW170104: Observation of a
50-Solar-Mass Binary Black Hole Coalescence at Redshift 0.2' Physical Review
Letters 118 22 221101 (2017)
169. Abbott B. P. et al.; 'Search for Gravitational Waves
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