Fletcher, C., et al. (LVK)

2024 
Astrophys. J. 964 149 
A Joint FermiGBM and SwiftBAT Analysis of Gravitationalwave Candidates from the Third Gravitationalwave Observing Run 
Abbott, R., et al. (LVK)

2023 
Phys. Rev. X 13 041039 
GWTC3: Compact Binary Coalescences Observed by LIGO and Virgo during the Second Part of the Third Observing Run 
Akutsu, T., et al. (KAGRA)

2023 
Prog. Theor. Exp. Phys.
2023 10A102

Overview of KAGRA : Data transfer and management 
Abe, H., et al. (KAGRA)

2023 
Prog. Theor. Exp. Phys.
2023 10A101

Performance of the KAGRA detector during the first joint observation with GEO 600 (O3GK) 
Abbott, R., et al. (LVK)

2023 
Astrophys. J. 955 155 
Search for Gravitational Waves Associated with Fast Radio Bursts Detected by CHIME/FRB during the LIGOVirgo Observing Run O3a 
 Abac, A. G., et al. (LVK)

2023 
arXiv:2308.03822 
Search for Eccentric Black Hole Coalescences during the Third Observing Run of LIGO and Virgo 
Abbott, R., et al. (LVK)

2023 
Astrophys. J.
Supplement 267 29

Open Data from the Third Observing Run of LIGO, Virgo, KAGRA, and GEO 
Abbott, R., et al. (LVK)

2023 
Astrophys. J. 949 76 
Constraints on the Cosmic Expansion History from GWTC3 
Akutsu, T., et al. (KAGRA)

2023 
Prog. Theor. Exp. Phys.
2023 059301

Correction to: Input optics systems of the KAGRA detector during O3GK 
Abbott, R., et al. (LVK)

2023 
arXiv:2304.08393 
Search for gravitationallensing signatures in the full third observing run of the LIGOVirgo network 
H. Abe, et al. (KAGRA)

2023 
Class. Quantum Gravity
40 085015

Noise subtraction from KAGRA O3GK data using Independent Component Analysis 
Akutsu, T., et al. (KAGRA)

2023 
Prog. Theor. Exp. Phys.
2023 023F01

Input optics systems of the KAGRA detector during O3GK 
Abbott, R., et al. (LVK)

2023 
Phys. Rev. X 13 011048 
Population of Merging Compact Binaries Inferred Using Gravitational Waves through GWTC3 
Abbott, R., et al. (LVK)

2022 
Astrophys. J. 941 L30 
Modelbased Crosscorrelation Search for Gravitational Waves from the Lowmass XRay Binary Scorpius X1 in LIGO O3 Data 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 106 102008 
Allsky search for continuous gravitational waves from isolated neutron stars using Advanced LIGO and Advanced Virgo O3 data 
Washimi, T., et al. 
2022 
Prog. Theor. Exp. Phys.
2022 113H02

Response of the underground environment of the KAGRA observatory against the air pressure disturbance from the Tonga volcanic eruption on January 15, 2022 
Abbott, R., et al. (LVK)

2022 
arXiv:2210.10931 
Search for gravitationalwave transients associated with magnetar bursts in Advanced LIGO and Advanced Virgo data from the third observing run 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 106
062002

Search for gravitational waves from Scorpius X1 with a hidden Markov model in O3 LIGO data 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 106
042003

Search for continuous gravitational wave emission from the Milky Way center in O3 LIGOVirgo data 
Abbott, R., et al. (LVK)

2022 
Astrophys. J. 935 1 
Searches for Gravitational Waves from Known Pulsars at Two Harmonics in the Second and Third LIGOVirgo Observing Runs 
Abe, H., et al. (KAGRA)

2022 
arXiv:2206.05785 
Noise subtraction from KAGRA O3GK data using Independent Component Analysis 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 105
122001

Allsky, allfrequency directional search for persistent gravitational waves from Advanced LIGO's and Advanced Virgo's first three observing runs 
Abbott, R., et al. (LVK)

2022 
Prog. Theor. Exp. Phys.
2022 063F01

First joint observation by the underground gravitationalwave detector KAGRA with GEO 600 
Sakai, Y., et al.

2022 
Sci. Rep. 12 9935 
Unsupervised learning architecture for classifying the transient noise of interferometric gravitationalwave detectors 
Abbott, R., et al. (LVK)

2022 
Astrophys. J. 932 133 
Narrowband Searches for Continuous and Longduration Transient Gravitational Waves from Known Pulsars in the LIGOVirgo Third Observing Run 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 105
102001

Allsky search for gravitational wave emission from scalar boson clouds around spinning black holes in LIGO O3 data 
Abe, H., et al. (KAGRA)

2022 
Galaxies 10 63 
The Current Status and Future Prospects of KAGRA, the LargeScale Cryogenic Gravitational Wave Telescope Built in the Kamioka Underground 
Abbott, R., et al. (LVK)

2022 
Astrophys. J. 928 186 
Search for Gravitational Waves Associated with GammaRay Bursts Detected by Fermi and Swift during the LIGOVirgo Run O3b 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 105
063030

Constraints on dark photon dark matter using data from LIGO's and Virgo's third observing run 
Abbott, R., et al. (LVK)

2022 
Astron. Astrophys.
659 A84

Search for intermediatemass black hole binaries in the third observing run of Advanced LIGO and Advanced Virgo 
Michimura, Y., et al.

2022 
15th Marcel Grossmann
Meeting on Gen. Rel.
1599

Prospects for improving the sensitivity of KAGRA gravitational wave detector 
Abbott, R., et al. (LVK)

2022 
Phys. Rev. D 105
022002

Search for continuous gravitational waves from 20 accreting millisecond xray pulsars in O3 LIGO data 
Y. Inoue et al. 
2023 
Rev. of Sci. Inst.,
Vol. 94, 7, id.074502.

Development of advanced photon calibrator for Kamioka gravitational wave detector (KAGRA) 
Chang, WenChen, et al. 
2023 
Phys. Rev. D, Vol. 107,
5, id.056008

Fixedtarget charmonium production and pion parton distributions 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. Letters,
Vol. 126, 24,
id.241102

Constraints on cosmic strings using data from the third Advanced LIGOVirgo observing run 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. D, Vol. 104,
12, id.122004

Allsky search for short gravitationalwave bursts in the third Advanced LIGO and Advanced Virgo run 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. D,
Vol. 104, 2,
id.022004

Upper Limits on the Isotropic GravitationalWave Background from Advanced LIGO's and Advanced Virgo's Third Observing Run 
Kuratsuji, H. and
Tsuchida, S.

2021 
Phys. Rev. A,
Vol. 103, 2,
id.023514

Evolution of the Stokes parameters, polarization singularities, and optical skyrmion 
J. Dove, et al. 
2021 
Nature vol. 590,
pages561–565

The asymmetry of antimatter in the proton 
Abbott, R., et al. (LVK)

2021 
Astrophys. J. Lett.,
Vol. 913, 2, id.L27.

Diving below the spindown limit: Constraints on gravitational waves from the energetic young pulsar PSR J05376910 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. D,
Vol. 104, 10,
article id.102001

Allsky search for longduration gravitationalwave bursts in the third Advanced LIGO and Advanced Virgo run 
Abbott, R., et al. (LVK)

2021 
Astrophys. J.,
Vol. 922, 1, id.71.

Constraints from LIGO O3 Data on Gravitationalwave Emission Due to Rmodes in the Glitching Pulsar PSR J05376910 
Abbott, R., et al. (LVK)

2021 
Astrophys. J.,
Vol. 921, 1, id.80.

Searches for Continuous Gravitational Waves from Young Supernova Remnants in the Early Third Observing Run of Advanced LIGO and Virgo 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. D, Vol. 104,
8, id.082004

Allsky search for continuous gravitational waves from isolated neutron stars in the early O3 LIGO data 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. D, Vol. 104,
2, id.022005

Search for anisotropic gravitationalwave backgrounds using data from Advanced LIGO and Advanced Virgo's first three observing runs 
Abbott, R., et al. (LVK)

2021 
Phys. Rev. Letters,
Vol. 126, 24,
id.241102

Constraints on Cosmic Strings Using Data from the Third Advanced LIGOVirgo Observing Run 
Abbott, R., et al. (LVK)

2021 
Astrophys. J. Letters,
Vol. 915, 1, id.L5.

Observation of Gravitational Waves from Two Neutron StarBlack Hole Coalescences 
KAGRA Collaboration 
2021 
Class. Quantum Gravity,
Vol. 38, 6, id.065011.

Vibration isolation systems for the beam splitter and signal recycling mirrors of the KAGRA gravitational wave detector 
KAGRA Collaboration 
2021 
Journal of Physics:
Conference Series,
Vol. 1857, 1,
id. 012002.

Radiative Cooling of the Thermally Isolated System in KAGRA Gravitational Wave Telescope 
Washimi, T., et al.

2021 
Class. Quantum Gravity,
Volume 38, Issue 12,
id.125005, 15 pp.

Method for environmental noise estimation via injection tests for groundbased gravitational wave detectors 
S. Kawamura, et al. 
2021 
Prog. Theor. Exp. Phys.,
Volume 2021, Issue 5,
id.05A105, 11 pp.

Current status of space gravitational wave antenna DECIGO and BDECIGO 
KAGRA Collaboration 
2021 
Prog. Theor. Exp. Phys.,
Volume 2021, Issue 5,
id.05A103, 68 pp.

Overview of KAGRA : KAGRA science 
Akutsu, T., et al. 
2021 
Prog. Theor. Exp. Phys.,
Volume 2021, Issue 5,
id.05A102, 30 pp.

Overview of KAGRA: Calibration, detector characterization, physical environmental monitors, and the geophysics interferometer 
Akutsu, T., et al. 
2021 
Prog. Theor. Exp. Phys.,
Volume 2021, Issue 5,
id.05A101, 24 pp.

Overview of KAGRA: Detector design and construction history 
M. Takeda, et al.

2021 
Phys. Rev. D, Vol. 104,
8, id.084063

Application of the HilbertHuang transform for analyzing standingaccretionshockinstability induced gravitational waves in a corecollapse supernova 
Hsieh, ChiaYu et al.

2021 
Chinese J. of Phys.,
vol. 73, pp. 1323

NRQCD analysis of charmonium production with pion and proton beams at fixedtarget energies 
Abbott, B. P., et al. (LV)

2021 
Astrophys. J.,
Volume 909, 2,
id.218, 18 pp.

A Gravitationalwave Measurement of the Hubble Constant Following the Second Observing Run of Advanced LIGO and Virgo 
S. Tsuchida, et al. 
2020 
Phys. Rev., Vol. 101,
Issue 2, id.023005

Dark Matter Signals on a Laser Interferometer 
KAGRA Collaboration 
2020 
Class. Quantum Gravity,
V. 37, 3, id.035004

An arm length stabilization system for KAGRA and future gravitationalwave detectors 
B. P. Abbott, et al. 
2020 
Liv. Rev. in Relativity,
Vol. 23, 1, id.3

Prospects for observing and localizing gravitationalwave transients with Advanced LIGO, Advanced Virgo and KAGRA 
Chang, W.C., et al.

2020 
Phys. Rev., D Vol. 102,
5, id.054024

Constraining gluon density of pions at large x by pioninduced J /ψ production 
Tsuchida, S.; Kuratsuji, H. 
2020 
Phys. Rev. E, Vol. 102,
Issue 3, id.032204

Random motion theory of an optical vortex in nonlinear birefringent media 
KAGRA Collaboration 
2019 
Nature Astronomy,
Volume 3, p. 3540

KAGRA: 2.5 generation interferometric gravitational wave detector 
T. Akaishi et al. 
2019 
arXiv 1912.08841 
EMPHATIC: A proposed experiment to measure hadron scattering and production cross sections for improved neutrino flux predictions 
A. Watanabe,
T. Sawada,
and M. Huang

2019 
Physics Letters B,
Volume 805,
article id. 135470

Extraction of gluon distributions from structure functions at small x in holographic QCD 
C.A.Aidala et al. 
2019 
Nuc. Inst. and Methods
in Physics Research, A,
Volume 930, p. 4963.

The SeaQuest spectrometer at Fermilab 
Hadron Hall
Users' Association

2019 
arXiv 1906.02357 
Writeups for workshop on the project for the hadron experimental facility of JPARC, Partial collection of LO Is at the extended hadron hall and the related topics 
Y. Komatsu et al. 
2019 
Proc. of the 8th Int.
Conf. on Quarks and
Nuc. Phys. (QNP2018),
id.022029, 4 pp.

Experimental Study of Diquark Correlation by Charmed Baryon Spectroscopy at JPARC HighMomentum Secondary Beam Line 
COMPASS Collaboration 
2019 
Nuc. Phys., Section B,
Volume 940, p. 3453.

Measurement of PTweighted Sivers asymmetries in leptoproduction of hadrons 
KAGRA Collaboration 
2019 
Prog. Theor. Exp. Phys.,
Volume 2020, Issue 5,
id.053F01

Application of the independent component analysis to the iKAGRA data 
KAGRA Collaboration 
2019 
Class. Quantum Gravity,
Volume 36, Issue 16,
article id. 165008

First cryogenic test operation of underground kmscale gravitationalwave observatory KAGRA 
KAGRA Collaboration 
2019 
Class. Quantum Gravity,
Volume 36, Issue 9,
article id. 095015

Vibration isolation system with a compact damping system for power recycling mirrors of KAGRA 
Y. Michimura, et al. 
2019 
Proc. for the 15th
Marcel Grossmann
Meeting

Prospects for improving the sensitivity of KAGRA gravitational wave detector 
S. Kawamura, et al. 
2019 
Int. J. of
Modern Physics D,
Volume 28, Issue 12,
id. 1845001

Space gravitationalwave antennas DECIGO and BDECIGO 
H. Kuratsuji and
S. Tsuchida

2019 
Europhysics Letters,
126, 10004

Superconducting fluctuation current in a space with the Kerr metric 
Y. Inoue, et al. 
2018 
Phys. Rev. D, Vol. 98,
Issue 2, id.022005

Improving the absolute accuracy of the gravitational wave detectors by combining the photon pressure and gravity field calibrators 
KAGRA Collaboration 
2018 
Prog. Theor. Exp. Phys.,
Volume 2018, Issue 1,
id.013F01

Construction of KAGRA: an underground gravitationalwave observatory 
COMPASS Collaboration 
2018 
Physics Letters B,
Volume 793,
p. 188194

Transverse extension of partons in the proton probed in the seaquark range by measuring the DVCS cross section 
A. Watanabe,
T. Sawada,
and C.W. Kao

2018 
Nucl. and Part. Phys.
Proceedings,
Vol. 300302,
p. 121125

Meson cloud effects on kaon quark distribution functions and the SU(3) flavor symmetry 
Y. Utsumi, et al. 
2017 
Publ. Astron. Soc. Jpn.,
Vol. 69, Issue 6, id.101

JGEM observations of an electromagnetic counterpart to the neutron star merger GW170817 
Abbott, B. P., et al. 
2017 
Astrophys. J., Vol. 848,
Issue 2, id. L12, 59 pp.

Multimessenger Observations of a Binary Neutron Star Merger 
A. Miyamoto, et al. 
2017 
Phys. Rev. D, Vol. 96,
Issue 6, id.064025

How to confirm the existence of population III stars by observations of gravitational waves 
H. Shinkai, et al. 
2017 
Astrophys. J.,
Volume 835, 2,
id. 276, 8 pp.

Gravitational Waves from Merging Intermediatemass Black Holes. II. Event Rates at Groundbased Detectors 
T. Narikawa, et al. 
2017 
Phys. Rev. D, Vol. 96,
Issue 8, id.084067

Optimal followup observations of gravitational wave events with small optical telescopes 
H. Nakano, et al. 
2017 
Prog. Theor. Exp. Phys.,
Volume 2017, Issue 7,
id.071E01

Black hole ringdown echoes and howls 
T. Nakamura , et al. 
2016 
Prog. Theor. Exp. Phys.,
Volume 2016, Issue 12,
id.129301

PreDECIGO can get the smoking gun to decide the astrophysical or cosmological origin of GW150914like binary black holes 
H. Yuzurihara, et al. 
2016 
Phys. Rev. D, Volume 94,
Issue 4, id.042004

Unveiling linearly and nonlinearly correlated signals between gravitational wave detectors and environmental monitors 
T. Yamamoto, et al. 
2016 
Phys. Rev. D, Volume 93,
Issue 8, id.082005

Characterization of nonGaussianity in gravitational wave detector noise 
T. Kinugawa, et al. 
2016 
Mon. Not. R. Astron. Soc.,
Volume 456, Issue 1,
p.10931114

The detection rate of inspiral and quasinormal modes of Population III binary black holes which can confirm or refute the general relativity in the strong gravity region 
T. Narikawa, et al. 
2016 
Prog. Theor. Exp. Phys.,
Volume 2016, Issue 9,
id.093E02 14 pp.

The potential of advanced groundbased gravitational wave detectors to detect generic deviations from general relativity 
M. Kaneyama, et al. 
2016 
Phys. Rev. D, Volume 93,
Issue 12, id.123010

Analysis of gravitational waves from binary neutron star merger by Hilbert Huang transform 
T. Yokozawa, et al. 
2015 
Astrophys. J.,
Volume 811, Issue 2,
article id. 86, 12 pp.

Probing the Rotation of Corecollapse Supernova with a Concurrent Analysis of Gravitational Waves and Neutrinos 
T. Narikawa, et al. 
2015 
Phys. Rev. D, Volume 91,
Issue 6, id.062007

Detectability of bigravity with graviton oscillations using gravitational wave observations 
K. Hayama, et al. 
2015 
Phys. Rev. D, Volume 92,
Issue 12, id.122001

Coherent network analysis of gravitational waves from threedimensional corecollapse supernova models 
A. Nishizawa, et al. 
2013 
Phys. Rev. D, Volume 88,
Issue 6, id. 064005

Probing for massive stochastic gravitationalwave background with a detector network 
S. Dhurandhar, et al. 
2011 
Phys. Rev. D, Volume 84,
Issue 8, id. 083007

Crosscorrelation search for a hot spot of gravitational waves 
S. Kawamura, et al. 
2011 
Class. Quantum Gravity,
Volume 28, Issue 9,
id. 094011

The Japanese space gravitational wave antenna: DECIGO 
K. Ishidoshiro, et al. 
2011 
Phys. Rev. Letters,
Volume 106, Issue 16,
id. 161101

Upper Limit on Gravitational Wave Backgrounds at 0.2 Hz with a TorsionBar Antenna 
M. van Putten , et al. 
2011 
Phys. Rev. D, Volume 83,
Issue 4, id. 044046

Prospects for true calorimetry on Kerr black holes in corecollapse supernovae and mergers 
M. Ando et al. 
2011 
Transactions of
the Japanese Society
for Artificial Intelligence,
Aerospace Technology
Japan,
Volume 8, pp.
Po_4_1Po_4_6

DECIGO: the Japanese Space Gravitational Wave Antenna 
S. Dhurandhar, et al. 
2011 
International Journal
of Modern Physics D,
Volume 20, Issue 10,
pp. 20512056

Coherent Versus Coincidence Detection of Gravitational Wave Signals from Compact Inspiraling Binaries 
M. Ando, et al. 
2010 
Class. Quantum Gravity,
Volume 27, Issue 8,
id. 084010

DECIGO and DECIGO pathfinder 
H. Mukhopadhyay, et al. 
2009 
Phys. Rev. D, Volume 80,
Issue 12, id. 123019

Detecting gravitational waves from inspiraling binaries with a network of geographically separated detectors: Coherent versus coincident strategies 
M. Ando, et al. 
2009 
Class. Quantum Gravity,
Volume 26, Issue 9,
id. 094019

DECIGO pathfinder 
R. Honda, et al. 
2008 
Class. Quantum Gravity,
Volume 25, Issue 18,
id. 184035

Astrophysically motivated time frequency clustering for burst gravitational wave search: application to TAMA300 data 
T. Akutsu, et al. 
2008 
Class. Quantum Gravity,
Volume 25, Issue 18,
id. 184013

Search for continuous gravitational waves from PSR J08354510 using CLIO data 
K. Yamamoto, et al. 
2008 
Phys. Rev. D, Volume 78,
Issue 2, id. 022004

Effect of energy deposited by cosmicray particles on interferometric gravitational wave detectors 
K. Ishidoshiro, et al. 
2007 
Class. Quantum Gravity,
Volume 24, Issue 19,
pp. S405S413

A systematical veto by all monitor signals in a gravitationalwave detector 
D. Tatsumi, et al. 
2007 
Class. Quantum Gravity,
Volume 24, Issue 19,
pp. S399S403

Current status of Japanese detectors 
H. Tagoshi, et al. 
2007 
Phys. Rev. D, Volume 75,
Issue 8, id. 087306

Detecting gravitational waves from inspiraling binaries with a network of detectors: Coherent strategies for correlated detectors 
T. Akutsu, et al. 
2006 
Phys. Rev. D, Volume 74,
Issue 12, id. 122002

Results of the search for inspiraling compact star binaries from TAMA300's observation in 2000 2004 
H. Mukhopadhyay, et al. 
2006 
Phys. Rev. D, vol. 74,
Issue 8, id. 083005

Detecting gravitational waves from inspiraling binaries with a network of detectors: Coherent versus coincident strategies 
T. Akutsu, et al. 
2006 
Class. Quantum Gravity,
Volume 23, Issue 19,
pp. S715S721

Analysis of gravitational wave bursts in TAMA300 data using an ALF filter 
B. Abbott, et al. 
2006 
Phys. Rev. D, Volume 73,
Issue 10, id. 102002

Joint LIGO and TAMA300 search for gravitational waves from inspiralling neutron star binaries 
S. Kawamura, et al. 
2006 
Class. Quantum Gravity,
Volume 23, Issue 8,
pp. S125S131

The Japanese space gravitational wave antenna—DECIGO 
T. Akutsu, et al. 
2006 
Class. Quantum Gravity,
Volume 23, Issue 8,
pp. S23S28

Veto analysis for gravitational wave burst signals in TAMA300 data using an ALF filter 
B. Abbott, et al. 
2005 
Phys. Rev. D, Volume 72,
Issue 12, id. 122004

Upper limits from the LIGO and TAMA detectors on the rate of gravitationalwave bursts 
T. Akutsu, et al. 
2005 
Class. Quantum Gravity,
Volume 22, Issue 18,
pp. S1303S1309

Burst wave analysis of TAMA300 data with the ALF filter 
M. Ando, et al. 
2005 
Class. Quantum Gravity,
Volume 22, Issue 18,
pp. S1283S1291

Upper limits on gravitationalwave bursts radiated from stellarcore collapses in our galaxy 
Y. Tsunesada, et al. 
2005 
Class. Quantum Gravity,
Volume 22, Issue 18,
pp. S1129S1138

Blackhole ringdown search in TAMA300: matched filtering and event selections 
S. Telada, et al. 
2005 
Class. Quantum Gravity,
Volume 22, Issue 18,
pp. S975S984

Calibration of TAMA300 in time domain 
Y. Tsunesada, et al. 
2005 
Phys. Rev. D, Volume 71,
Issue 10, id. 103005

On detection of black hole quasinormal ringdowns: Detection efficiency and waveform parameter determination in matched filtering 
M. Ando, et al. 
2005 
Phys. Rev. D, Volume 71,
Issue 8, id. 082002

Observation results by the TAMA300 detector on gravitational wave bursts from stellarcore collapses 
P. J. Sutton, et al. 
2004 
Class. Quantum Gravity,
Volume 21, Issue 20,
pp. S1801S1807

Plans for the LIGO TAMA joint search for gravitational wave bursts 
M. Ando, et al. 
2004 
Class. Quantum Gravity,
Volume 21, Issue 20,
pp. S1679S1684

Analysis methods for burst gravitational waves with TAMA data 
H. Takahashi, et al. 
2004 
Phys. Rev. D, Volume 70,
Issue 4, id. 042003

Coincidence analysis to search for inspiraling compact binaries using TAMA300 and LISM data 
T. Uchiyama, et al. 
2004 
Class. Quantum Gravity,
Volume 21, Issue 5,
pp. S1161S1172

Present status of largescale cryogenic gravitational wave telescope 
M. Ando, et al. 
2004 
Class. Quantum Gravity,
Volume 21, Issue 5,
pp. S735S740

Analysis for burst gravitational waves with TAMA300 data 
S. Nagano, et al. 
2003 
Rev. of Sci. Instruments,
Volume 74, Issue 9,
pp. 41764183

Development of a multistage laser frequency stabilization for an interferometric gravitationalwave detector 
K. Kuroda, et al. 
2003 
Class. Quantum Gravity,
Volume 20, Issue 17,
pp. S871S884

Current status of largescale cryogenic gravitational wave telescope 
N. Kanda, et al. 
2003 
Class. Quantum Gravity,
Volume 20, Issue 17,
pp. S761S768

Advantages of simultaneous observation for TAMA300 with recently operating interferometric gravitational wave detectors 
M. Ando, et al. 
2003 
Class. Quantum Gravity,
Volume 20, Issue 17,
pp. S697S709

Methods to characterize nonGaussian noise in TAMA 
K. Soida, et al. 
2003 
Class. Quantum Gravity,
20, 17, pp. S645S654

Search for continuous gravitational waves from the SN1987A remnant using TAMA300 data 
N. Kanda, et al. 
2003 
Class. Quantum Gravity,
20, 17

FOREWORD: The 7th Gravitational Wave Data Analysis Workshop, 1719 December 2002, Kyoto, Japan 
K. Kuroda, et al. 
2003 
Proc. of the 28th
International Cosmic Ray
Conference

LCGT Project Observing Gravitational Wave Events at 240 Mpc 
M. Ando, et al. 
2003 
Proc. of the 28th
International Cosmic Ray
Conference

Search for Burst Gravitational Waves Using TAMA300 Data 
N. Kanda, et al. 
2003 
Proc. of the 28th
International Cosmic Ray
Conference

Progresses of Search for Gravitational Wave Events Using TAMA300 Data 
Y. Tsunesada, et al. 
2003 
Proc. of the 28th
International Cosmic Ray
Conference

Search for Gravitational Waves from RingingDown Black Holes 
N. Sato, et al. 
2003 
Cryogenics,
43, 7, p. 425429.

Force measurements of a superconductingfilm actuator for a cryogenic interferometric gravitationalwave detector 