Research Papers

Experiments

ALLEGRO (Bar - United States)
AURIGA (Bar - Italy)
DUAL (Bar - Italy)
CLIO/LISM/LCGT (Interferometer - Japan)
EXPLORER (Bar - Switzerland)
GEO (Inteferometer - Germany - Britain - et.al.)
LIGO (Interferometer - United States - et.al.)
LISA (Space-based Interferometer - NASA-ESA)
Mario Schenberg (Sphere - Brazil)
miniGRAIL (Sphere - Netherlands)
NAUTILUS (Bar - Italy)
TAMA (Interferometer - Japan)
VIRGO (Interferometer - Italy - France - et.al.)

Detector Networks

LSC (GEO-LIGO)
LIGO-TAMA
LSM-TAMA
ALLEGRO-EXPLORER
EXPLORER-NAUTILUS

Reviews

Reviews

Experiments

ALLEGRO (Bar - United States)

AURIGA (Bar - Italy)

Allen ZA, Astone P, Baggio L, Busby D, Bassan M, et al. 2000. First search for gravitational wave bursts with a network of detectors. Physical Review Letters 85: 5046-50
Astone P, Babusci D, Baggio L, Bassan A, Blair DG, et al. 2003. Methods and results of the IGEC search for burst gravitational waves in the years 1997-2000. Physical Review D 68: 022001
Baggio L, Cerdonio M, Ortolan A, Vedovato G, Taffarello L, et al. 2000. chi(2) testing of optimal filters for gravitational wave signals: An experimental implementation. Physical Review D 61: 102001
L. Baggio et al, 3-mode detection for widening the bandwidth of resonant gravitational wave detectors, Phys. Rev. Lett. 94 (2005) 241101
L.Baggio et al., Upper Limits on Gravitational-Wave Emission in Association with the 27 Dec 2004 Giant Flare of SGR1806-20 & Erratum, Ph
M.Bignotto et al., New suspension system for the gravitational wave bar detector AURIGA, Rev. Sci. Instrum. 76 (2005) 084502
Bonaldi M, Falferi P, Cerdonio M, Vinante A, Dolesi R, Vitale S. 1999. Thermal noise in a high Q cryogenic resonator. Review of Scientific Instruments 70: 1851-6
Cerdonio M, Conti L, Heidmann A, Pinard M. 2001. Thermoelastic effects at low temperatures and quantum limits in displacement measurements. Physical Review D 63: 082003
Cerdonio M, Fortini P, Ortolan A, Prodi GA, Vitale S. 1993. Concept of a Resonant-Antennae Observatory for Gravitational-Wave Bursts. Physical Review Letters 71: 4107-10
Conti L, De Rosa M, Marin F. 2000. Low-amplitude-noise laser for AURIGA detector optical readout. Applied Optics 39: 5732-8
Conti L, De Rosa M, Marin F. 2003. High-spectral-purity laser system for the AURIGA detector optical readout. Journal of the Optical Society of America B-Optical Physics 20: 462-8
Conti L, De Rosa M, Marin F, Taffarello L, Cerdonio M. 2003. Room temperature gravitational wave bar detector with optomechanical readout. Journal of Applied Physics 93: 3589-95
Crivelli-Visconti V, Ortolan A, Taffarello L, Vedovato G, Cerdonio M, et al. 1998. Timing with resonant gravitational wave detectors: An experimental test. Physical Review D 57: 2045-50
De Rosa M, Conti L, Cerdonio M, Pinard M, Marin F. 2002. Experimental measurement of the dynamic photothermal effect in Fabry-Perot cavities for gravitational wave detectors. Physical Review Letters 89: 237402
Falferi P, Bonaldi M, Cavalleri A, Cerdonio M, Vinante A, et al. 2003. Noise sources and dissipation mechanisms of a 120 hbar SQUID amplifier. Applied Physics Letters 82: 931-3
Falferi P, Bonaldi M, Cerdonio M, Vinante A, Vitale S. 1998. Back action of a low noise dc SQUID. Applied Physics Letters 73: 3589-91
P. Falferi et al., 27 hbar SQUID amplifier operating with high-Q resonant input load, Appl. Phys. Lett. 88 (2006) 062505
Mezzena R, Vinante A, Falferi P, Vitale S, Bonaldi M, et al. 2001. Sensitivity enhancement of Quantum Design dc superconducting quantum interference devices in two-stage configuration. Review of Scientific Instruments 72: 3694-8
Ortolan A, Vedovato G, Cerdonio M, Vitale S. 1994. Optimal Reconstruction of the Input Signal in Resonant Gravitational-Wave Detectors - Data-Processing Algorithm and Physical Limitations. Physical Review D 50: 4737-43
P. Tricarico et al., Correlation between gamma-ray bursts and gravitational waves, Phys. Rev. D 63, (2001) 082002
A.Vinante et al., Thermal noise in high Q ultracryogenic resonator, Rev. Sci. Instrum. 76 (2005) 074501
Vinante A, Mezzena R, Prodi GA, Vitale S, Cerdonio M, et al. 2001. Dc superconducting quantum interference device amplifier for gravitational wave detectors with a true noise temperature of 16 µK. Applied Physics Letters 79: 2597-9
Zendri JP, Baggio L, Bignotto M, Bonaldi M, Cerdonio M, et al. 2002. Status report and near future prospects for the gravitational wave detector AURIGA. Classical and Quantum Gravity 19: 1925-33

DUAL (bar -Italy)

Bonaldi M, Cerdonio M, Conti L, Pinard M, Prodi GA, Zendri JP. 2003. Selective readout and back-action reduction for wideband acoustic gravitational wave detectors. Physical Review D 68: 102004
Briant T, Cerdonio M, Conti L, Heidmann A, Lobo JA, Pinard M. 2003. Thermal and back-action noises in dual-sphere gravitational-waves detectors. Physical Review D 67: 102005
Cerdonio M, Conti L, Lobo JA, Ortolan A, Taffarello L, Zendri JP. 2001. Wideband dual sphere detector of gravitational waves. Physical Review Letters 87: 031101
Marin F, Conti L, De Rosa M. 2003. A folded Fabry-Perot cavity for optical sensing in gravitational wave detectors. Physics Letters A 309: 15-23

CLIO/LISM/LCGT (Interferometer - Japan)

Miyoki S, Ohashi M, Waseda K, Karoji H, Tomaru I. 2005. Manufacture of a 10-km-scale radius-of-curvature surface by use of a thin-film coating technique. Optics Letters 30: 1399-401
Miyoki S, Uchiyama T, Yamamoto K, Hayakawa H, Kasahara K, et al. 2004. Status of the CLIO project. Classical and Quantum Gravity 21: S1173-S81
Uchiyama T, Kuroda K, Ohashi M, Miyoki S, Ishitsuka H, et al. 2004. Present status of large-scale cryogenic gravitational wave telescope. Classical and Quantum Gravity 21: S1161-S72
Li R, Tomaru T, Suzuki T, Haruyama T, Shintomi T, et al. 2004. Development of a cryocooler vibration-reduction system for a cryogenic interferometric gravitational wave detector. Classical and Quantum Gravity 21: S1005-S8
Takemoto S, Araya A, Akamatsu J, Morii W, Momose H, et al. 2004. A 100 m laser strainmeter system installed in a 1 km deep tunnel at Kamioka, Gifu, Japan. Journal of Geodynamics 38: 477-88Tomaru T, Suzuki T, Haruyama T, Shintomi T, Yamamoto A, et al. 2004. Vibration analysis of cryocoolers. Cryogenics 44: 309-17
Takeno K, Moriwaki S, Mio N. 2004. Development of a high-power and stable laser for large scale cryogenic gravitational wave telescope. Classical and Quantum Gravity 21: S881-S6
Sato S, Miyoki S, Telada S, Tatsumi D, Araya A, et al. 2004. Ultrastable performance of an underground-based laser interferometer observatory for gravitational waves. Physical Review D 69: -
Tsubono K. 2003. Application of material damping for gravitational wave detectors. Journal of Alloys and Compounds 355: 224-9
Mio N, LCGT Collaboration. 2003. Large-scale cryogenic gravitational wave telescope (LCGT). Progress of Theoretical Physics Supplement: 221-5
Tanji T, Moriwaki S, Mio N, Tomaru T, Suzuki T, Shintomi T. 2003. Measurement of damping performance of M2052 alloy at cryogenic temperatures. Journal of Alloys and Compounds 355: 207-10
Kuroda K, Ohashi M, Miyoki S, Uchiyama T, Ishitsuka H, et al. 2003. Current status of large-scale cryogenic gravitational wave telescope. Classical and Quantum Gravity 20: S871-S84
Ohashi M, Kuroda K, Miyoki S, Uchiyama T, Yamamoto K, et al. 2003. Design and construction status of CLIO. Classical and Quantum Gravity 20: S599-S607
Tomaru T, Suzuki T, Uchiyama T, Yamamoto A, Shintomi T, et al. 2002. Maximum heat transfer along a sapphire suspension fiber for a cryogenic interferometric gravitational wave detector. Physics Letters A 301: 215-9
Tomaru T, Suzuki T, Miyoki S, Uchiyama T, Taylor CT, et al. 2002. Thermal lensing in an cryogenic sapphire substrates. Classical and Quantum Gravity 19: 2045-9
Kuroda K, Ohashi M, Miyoki S, Ishizuka H, Taylor CT, et al. 2002. Japanese large-scale interferometers. Classical and Quantum Gravity 19: 1237-45
Kuroda K, LCGT Collaboration. 2002. Progress in gravitational wave detection: Interferometers. Nuclear Physics B-Proceedings Supplements 110: 202-8
Miyoki S, Tomaru T, Ishitsuka H, Ohashi M, Kuroda K, et al. 2001. Cryogenic contamination speed for cryogenic laser interferometric gravitational wave detector. Cryogenics 41: 415-20
Tomaru T, Uchiyama T, Tatsumi D, Miyoki S, Ohashi M, et al. 2001. Cryogenic measurement of the optical absorption coefficient in sapphire crystals at 1.064 mu m for the large-scale cryogenic gravitational wave telescope. Physics Letters A 283: 80-4

EXPLORER (Bar - Switzerland)

Astone P, Babusci D, Bassan M, Carelli P, Cavallari G, et al. 2003. Increasing the bandwidth of resonant gravitational antennas: The case of explorer. Physical Review Letters 91: -
Astone P, Bassan A, Bonifazi P, Carelli P, Coccia E, et al. 2002. Search for periodic gravitational wave sources with the Explorer detector. Physical Review D 65: -
Amati L, Astone P, Bassan M, Bonifazi P, Carelli P, et al. 1999. Measurements with the resonant gravitational wave detector EXPLORER during the gamma-ray burst 980425. Astronomy & Astrophysics Supplement Series 138: 605-6
Astone P, Barbiellini G, Bassan M, Bonifazi P, Carelli P, et al. 1999. Search for time correlation between gamma-ray bursts and data from the gravitational wave antenna EXPLORER. Astronomy & Astrophysics Supplement Series 138: 603-4
Astone P, Bassan M, Bizzarri R, Bonifazi P, Brocco L, et al. 1998. Experimental study of the dynamic Newtonian field with a cryogenic gravitational wave antenna. European Physical Journal C 5: 651-64

GEO (Interferometer - Germany-Britain-et.al.)

Willke B, Aufmuth P, Aulbert C, Babak S, Balasubramanian R, et al. 2002. The Geo 600 Gravitational Wave Detector. Classical and Quantum Gravity 19: 1377-87

LIGO (Interferometer - United States-et.al.)

Abbott B, Abbott R, Adhikari R, Ageev A, Agresti J, et al. 2006. Search for gravitational waves from binary black hole inspirals in LIGO data. Physical Review D 73: -
Abbott B, Abbott R, Adhikari R, Agresti J, Ajith P, et al. 2005. Upper limits on a stochastic background of gravitational waves. Physical Review Letters 95: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2005. Limits on gravitational-wave emission from selected pulsars using LIGO data. Physical Review Letters 94: -
Abbott B, Abbott R, Adhikari R, Ageev A, Agresti J, et al. 2005. Upper limits on gravitational wave bursts in LIGO's second science run. Physical Review D 72: -
Abbott B, Abbott R, Adhikari R, Ageev A, Agresti J, et al. 2005. First all-sky upper limits from LIGO on the strength of periodic gravitational waves using the Hough transform. Physical Review D 72: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2005. Search for gravitational waves associated with the gamma ray burst GRB030329 using the LIGO detectors. Physical Review D 72: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2005. Search for gravitational waves from primordial black hole binary coalescences in the galactic halo. Physical Review D 72: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2005. Search for gravitational waves from galactic and extra-galactic binary neutron stars. Physical Review D 72: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2004. First upper limits from LIGO on gravitational wave bursts. Physical Review D 69: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2004. Setting upper limits on the strength of periodic gravitational waves from PSR J1939+2134 using the first science data from the GEO 600 and LIGO detectors. Physical Review D 69: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2004. Analysis of LIGO data for gravitational waves from binary neutron stars. Physical Review D 69: -
Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2004. Analysis of first LIGO science data for stochastic gravitational waves. Physical Review D 69: -

LISA (Space-based Interferometer - NASA-ESA)

Heinzel G, Braxmaier C, Schilling R, Rudiger A, Robertson D, et al. 2003. Interferometry for the LISA technology package (LTP) aboard SMART-2. Classical and Quantum Gravity 20: S153-S61

Mario Schenberg (Sphere - Brazil)

de Araujo JCN, Miranda OD, Aguiar OD. 2005. Detectability of f-mode unstable neutron stars by the Schenberg spherical antenna. Classical and Quantum Gravity 22: S471-S7
Aguiar OD, Andrade LA, Barroso JJ, Bortoli F, Carneiro LA, et al. 2005. The Brazilian gravitational wave detector Mario Schenberg: progress and plans. Classical and Quantum Gravity 22: S209-S14
Andrade LA, Costa CA, Aguiar OD, Frajuca C, Mosso MM, et al. 2004. Ultra-low phase noise 10 GHz oscillator to pump the parametric transducers of the Mario Schenberg gravitational wave detector. Classical and Quantum Gravity 21: S1215-S9
Frajuca C, Ribeiro KL, Andrade LA, Aguiar OD, Magalhaes NS, Marinho RD. 2004. A noise model for the Brazilian gravitational wave detector 'Mario Schenberg'. Classical and Quantum Gravity 21: S1107-S11
Melo JL, Velloso WF, Aguiar OD. 2004. Overall mechanical transfer function calculated for a spherical resonant gravitational waves antenna. Review of Scientific Instruments 75: 2140-3
Melo JL, Aguiar OD, Velloso WF, de Lucena AU. 2004. The antenna-transducer mechanical coupling design for the Schenberg detector. Classical and Quantum Gravity 21: S999-S1003
Costa CA, Aguiar OD, Magalhaes NS. 2004. Response of the Brazilian gravitational wave detector to signals from a black hole ringdown. Classical and Quantum Gravity 21: S827-S32
de Araujo JCN, Miranda OD, Castro CS, Paleo BW, Aguiar OD. 2004. Can black-hole MACHO binaries be detected by the Brazilian spherical antenna? Classical and Quantum Gravity 21: S521-S7
Aguiar OD, Andrade LA, Barroso JJ, Camargo L, Carneiro LA, et al. 2004. The Brazilian spherical detector: progress and plans. Classical and Quantum Gravity 21: S457-S63
Aguiar OD, Andrade LA, Camargo L, Costa CA, de Araujo JCN, et al. 2002. The gravitational wave detector "Mario Schenberg": Status of the project. Brazilian Journal of Physics 32: 866-8
Melo JL, Velloso WF, Aguiar OD. 2002. Vibration isolation support design for the SCHENBERG detector. Classical and Quantum Gravity 19: 1985-9
Furtado SR, Aguiar OD. 2002. Fast cooling techniques for gravitational wave antennas. Classical and Quantum Gravity 19: 1973-8
Frajuca C, Ribeiro KL, Andrade LA, Velloso WF, Melo JL, et al. 2002. Transducers for the Brazilian gravitational wave detector 'Mario Schenberg'. Classical and Quantum Gravity 19: 1961-5
Marinho RM, Magalhaes NS, Aguiar OD, Frajuca C. 2002. Response of spherical gravitational wave antenna modes to high-energy cosmic ray particles. Classical and Quantum Gravity 19: 1955-60Aguiar OD, Andrade LA, Camargo L, Costa CA, de Araujo JCN, et al. 2002. The status of the Brazilian spherical detector. Classical and Quantum Gravity 19: 1949-53
Marinho RM, Magalhaes NS, Aguiar OD, Frajuca C. 2001. Excitation of the modes of a spherical antenna for gravitational waves by high energy particles. Physical Review D 6406: -
Magalhaes NS, Aguiar OD, Johnson WW, Frajuca C. 1997. Possible resonator configurations for the spherical gravitational wave antenna. General Relativity and Gravitation 29: 1511-25

miniGRAIL (Sphere - Netherlands)

de Waard A, Benzaim Y, Frossati G, Gottardi L, van der Mark H, et al. 2005. MiniGRAIL progress report 2004. Classical and Quantum Gravity 22: S215-S9
De Waard A, Gottardi L, Bassan M, Coccia E, Fafone V, et al. 2004. Cooling down MiniGRAIL to milli-Kelvin temperatures. Classical and Quantum Gravity 21: S465-S71

NAUTILUS (Bar - Italy)

Astone P, Bassan M, Bonifazi P, Carelli P, Coccia E, et al. 2000. Cosmic rays observed by the resonant gravitational wave detector NAUTILUS. Physical Review Letters 84: 14-7
Astone P, Bassan M, Bonifazi P, Carelli P, Coccia E, et al. 2001. Energetic cosmic rays observed by the resonant gravitational wave detector NAUTILUS. Physics Letters B 499: 16-22
Astone P, Bassan M, Bonifazi P, Carelli P, Coccia E, et al. 1997. The gravitational wave detector NAUTILUS operating at T=0.1 K. Astroparticle Physics 7: 231-43

TAMA (Interferometer - Japan)

--GW Results--

Ando M, Akutsu T, Akutsu T, Arai K, Aso Y, et al. 2005. Upper limits on gravitational-wave bursts radiated from stellar-core collapses in our galaxy. Classical and Quantum Gravity 22: S1283-S91
Ando M, Arai K, Aso Y, Beyersdorf P, Hayama K, et al. 2005. Observation results by the TAMA300 detector on gravitational wave bursts from stellar-core collapses. Physical Review D 71: -
Ando M, Arai K, Takahashi R, Tatsmui D, Beyersdorf P, et al. 2004. Analysis for burst gravitational waves with TAMA300 data. Classical and Quantum Gravity 21: S735-S40
Tsunesada Y, TAMA Collaboration. 2004. Search for gravitational waves from black-hole ringdowns using TAMA300 data. Classical and Quantum Gravity 21: S703-S8
Takahashi H, Tagoshi H, TAMA Collaboration. 2004. Towards the search for gravitational waves from inspiralling compact binaries in TAMA300 data during 2003: the data quality and stability. Classical and Quantum Gravity 21: S697-S702
Tsubono K. 2003. Search for gravitational waves. Progress of Theoretical Physics Supplement: 115-21
Soida K, Ando M, Kanda N, Tagoshi H, Tatsumi D, et al. 2003. Search for continuous gravitational waves from the SN1987A remnant using TAMA300 data. Classical and Quantum Gravity 20: S645-S54
Tagoshi H, Kanda N, Tanaka T, Tatsumi D, Telada S, et al. 2001. First search for gravitational waves from inspiraling compact binaries using TAMA300 data. Physical Review D 6306: -

--Technology--

Ando M, Arai K, Nagano S, Takahashi R, Sato S, et al. 2004. Analysis methods for burst gravitational waves with TAMA data. Classical and Quantum Gravity 21: S1679-S84
Tatsumi D, Tsunesada Y. 2004. Online calibration and pre-processing of TAMA data. Classical and Quantum Gravity 21: S451-S6
Takahashi R, Arai K, Kawamura S, Smith MR. 2004. Direct measurement of the scattered light effect on the sensitivity in TAMA300. Physical Review D 70: -
Takahashi R, TAMA Collaboration. 2004. Status of TAMA300. Classical and Quantum Gravity 21: S403-S8
Kanda N, TAMA Collaboration. 2003. Advantages of simultaneous observation for TAMA300 with recently operating interferometric gravitational wave detectors. Classical and Quantum Gravity 20: S761-S8
Ando M, Arai K, Takahashi R, Tatsumi D, Beyersdorf P, et al. 2003. Methods to characterize non-Gaussian noise in TAMA. Classical and Quantum Gravity 20: S697-S709
Takahashi R, TAMA Collaboration. 2003. Operational status of TAMA300. Classical and Quantum Gravity 20: S593-S8
Tomaru T, Miyoki S, Ohashi M, Kuroda K, Uchiyama T, et al. 2002. Evaluation of the performance of polished mirror surfaces for the TAMA gravitational wave detector by use of a wave-front tracing simulation. Applied Optics 41: 5913-20
Arai K, TAMA Collaboration. 2002. Sensing and controls for power-recycling of TAMA300. Classical and Quantum Gravity 19: 1843-8
Marka S, Takamori A, Ando M, Bertolini A, Cella G, et al. 2002. Anatomy of the TAMA SAS seismic attenuation system. Classical and Quantum Gravity 19: 1605-14
Takahashi R, Arai K, TAMA Collaboration. 2002. Improvement of the vibration isolation system for TAMA300. Classical and Quantum Gravity 19: 1599-604
Takahashi R, Saito Y, Fukushima M, Ando M, Arai K, et al. 2002. Direct measurement of residual gas effect on the sensitivity in TAMA300. Journal of Vacuum Science & Technology a-Vacuum Surfaces and Films 20: 1237-41
Takamori A, Ando M, Bertolini A, Cella G, DeSalvo R, et al. 2002. Mirror suspension system for the TAMA SAS. Classical and Quantum Gravity 19: 1615-21
Ando M, TAMA Collaboration. 2002. Current status of TAMA. Classical and Quantum Gravity 19: 1409-19
Takahashi R, Kuwahara F, Majorana E, Barton MA, Uchiyama T, et al. 2002. Vacuum-compatible vibration isolation stack for an interferometric gravitational wave detector TAMA300. Review of Scientific Instruments 73: 2428-33
Nagano S, Barton MA, Ishizuka H, Kuroda K, Matsumura S, et al. 2002. Development of a light source with an injection-locked Nd : YAG laser and a ring-mode cleaner for the TAMA 300 gravitational-wave detector. Review of Scientific Instruments 73: 2136-42
Ando M, Arai K, Takahashi R, Heinzel G, Kawamura S, et al. 2001. Stable operation of a 300-m laser interferometer with sufficient sensitivity to detect gravitational-wave events within our galaxy. Physical Review Letters 86: 3950-4

VIRGO (Interferometer - Italy-France-et.al.)

Detector Networks

LSC (GEO-LIGO)

Abbott B, Abbott R, Adhikari R, Ageev A, Allen B, et al. 2004. Detector description and performance for the first coincidence observations between LIGO and GEO. Nuclear Instruments & Methods in Physics Research Section a-Accelerators Spectrometers Detectors and Associated Equipment 517: 154-79

LIGO-TAMA

Abbott B, Abbott R, Adhikari R, Ageev A, Agresti J, et al. 2005. Upper limits from the LIGO and TAMA detectors on the rate of gravitational-wave bursts. Physical Review D 72: -
Sutton PJ, Ando M, Brady P, Cadonati L, Di Credico A, et al. 2004. Plans for the LIGO-TAMA joint search for gravitational wave bursts. Classical and Quantum Gravity 21: S1801-S7

LISM-TAMA

Takahashi H, Tagoshi H, Ando M, Arai K, Beyersdorf P, et al. 2004. Coincidence analysis to search for inspiraling compact binaries using TAMA300 and LISM data. Physical Review D 70: -
Takahashi H, Tagoshi H, TAMA Collaboration, LISM Collaboration. 2003. Coincidence analysis to search for inspiralling compact binaries. Classical and Quantum Gravity 20: S741-S51

ALLEGRO-EXPLORER

Astone P, Bassan M, Bonifazi P, Carelli P, Coccia E, et al. 1999. Search for gravitational radiation with the Allegro and Explorer detectors. Physical Review D 5912: -

EXPLORER-NAUTILUS

Astone P, Babusci D, Bassan M, Carelli P, Coccia E, et al. 2005. Cumulative analysis of the association between the data of the gravitational wave detectors NAUTILUS and EXPLORER and the gamma ray bursts detected by BATSE and BeppoSAX. Physical Review D 71: -
Astone P, ROG Collaboration. 2004. Seven years of data taking and analysis of data from the Explorer and Nautilus gravitational wave detectors. Classical and Quantum Gravity 21: S1585-S94
Astone P, Babusci D, Bassan M, Bonifazi P, Carelli P, et al. 2004. Searching for counterpart of gamma-ray bursts with resonant gravitational wave detectors. Classical and Quantum Gravity 21: S759-S64
Astone P, Babusci D, Bassan M, Bonifazi P, Carelli P, et al. 2003. Comments on the 2001 run of the EXPLORER/NAUTILUS gravitational wave experiment. Classical and Quantum Gravity 20: S785-S8
Astone P, Babusci D, Bassan M, Borkowski KM, Coccia E, et al. 2003. All-sky upper limit for gravitational radiation from spinning neutron stars. Classical and Quantum Gravity 20: S665-S76
Astone P, Babusci D, Bassan M, Bonifazi P, Carelli P, et al. 2002. Study of the coincidences between the gravitational wave detectors EXPLORER and NAUTILUS in 2001. Classical and Quantum Gravity 19: 5449-63
Astone P, Bassan M, Bonifazi P, Carelli P, Coccia E, et al. 2001. Study of coincidences between resonant gravitational wave detectors. Classical and Quantum Gravity 18: 243-51
Astone P, Bassan M, Bonifazi P, Carelli P, Cosmelli C, et al. 1999. Crosscorrelation measurement of stochastic gravitational waves with two resonant gravitational wave detectors. Astronomy and Astrophysics 351: 811-4

REVIEWS

Kawamura S. 2003. Status and plans for future generations of ground-based interferometric gravitational wave antennas. Classical and Quantum Gravity 20: S127-S34