PUBLICATIONS

Last update: 9 November 2015.

 

 

Refereed publications

 

[R42] Raffai, P., Haiman, Z., and Frei Z.; "A statistical method to search for recoiling supermassive black holes in active galactic nuclei", Monthly Notices of the Royal Astronomical Society, Vol. 455, p. 484, 2015. Impact factor: 4.952

[R41] Hu, Y., Raffai, P., Gondán, L., Heng, I. S., Kelecsényi, N., Hendry, M., Márka, Z., and Márka, S.; "Global Optimization for Future Gravitational Wave Detectors' Sites", Classical and Quantum Gravity, Vol. 32, p. 105010, 2015. Impact factor: 2.837

 

[R40] Raffai, P., L. Gondán, I. S. Heng, N. Kelecsényi, J. Logue, Z. Márka, and S. Márka; "Optimal networks of future gravitational-wave telescopes", Classical and Quantum Gravity, Vol. 30, p.155004 (2013) Impact factor: 3.103 

 

[R39] Murphy, D., M. Tse, P. Raffai, I. Bartos, R. Khan, Z. Márka, L. Matone, K. Redwine and S.Márka; "Detecting long-duration narrow-band gravitational wave transients associated with softgamma repeater quasiperiodic oscillations", Physical Review D, Vol. 87, Issue 10, p. 103008 (2013) Impact factor: 4.864

 

[R38] Tápai, M., Z. Keresztes, L. Á. Gergely; "Spin-dominated waveforms for unequal mass compact binaries", Physical Review D, Vol. 86, Issue 10, p. 104045 (2012) Impact factor: 4.691

 

[R37] Baret, B., I. Bartos, B. Bouhou, E. Chassande-Mottin, A. Corsi, I. Di Palma, C. Donzaud, M. Drago, C. Finley, G. Jones, S. Klimenko, A. Kouchner, S. Márka, Z. Márka, L. Moscoso, M. A. Papa, T. Pradier, G. Prodi, P. Raffai, V. Re, J. Rollins, F. Salemi, P. Sutton, M. Tse, V. Van Elewyck and G. Vedovato; „Multimessenger science reach and analysis method for common sources of gravitational waves and high-energy neutrinos”, Physical Review D, Vol. 85, Issue 10, p. 103004 (2012) Impact factor: 4.691

[R36] Raffai, P., G. Szeifert, L. Matone, Y. Aso, I. Bartos, Z. Márka, F. Ricci and S. Márka; „Opportunity to Test non-Newtonian Gravity Using Interferometric Sensors with Dynamic Gravity Field Generators”, Physical Review D, Vol. 84, Issue 8, p. 082002 (2011) Impact factor: 4.558

[R35] Bareta, B., I. Bartos, B. Bouhoua, A. Corsic, I. Di Palma, C. Donzauda, V. Van Elewyck, C. Finley, G. Jones, A. Kouchnera, S. Márka, Z. Márka, L. Moscoso, E. Chassande-Mottin, M. A. Papa, T. Pradier, P. Raffai, J. Rollins and P. Sutton; „Bounding the time delay between high-energy neutrinos and gravitational-wave transients from gamma-ray bursts”, Astroparticle Physics, Vol. 35, Issue 1, p. 1-7. (2011) Impact factor: 3.216

 

[R34] Thrane, E., S. Kandhasamy, C. D. Ott, W. G. Anderson, N. L. Christensen, M. W. Coughlin4, S. Dorsher, S. Giampanis, V. Mandic, A. Mytidis, T. Prestegard, P. Raffai and B. Whiting; „Long gravitational-wave transients and associated detection strategies for a network of terrestrial interferometers”, Physical Review D, Vol. 83, Issue 8, p. 083004 (2011) Impact factor: 4.558

 

[R33] Keresztes, Z., L. A. Gergely, A. Y. Kamenshchik, V. Gorini, D. Polarski; „Will the tachyonic universe survive the big brake?”, Physical Review D, Volume 82, Issue 12, id. 123534 (2010) Impact factor: 4.922

 

[R32] Gergely, L. A.; „Spinning compact binary inspiral. II. Conservative angular dynamics”, Physical Review D, Volume 82, Issue 10, id. 104031 (2010) Impact factor: 4.922

 

[R31] Gergely, L. A., P. L. Biermann, L. I. Caramete; „Supermassive black hole spin-flip during the inspiral”, Classical and Quantum Gravity, Volume 27, Issue 19, pp. 194009 (2010) Impact factor: 3.029

 

[R30] Keresztes, Z., L. A. Gergely; „Covariant gravitational dynamics in 3+1+1 dimensions”, Classical and Quantum Gravity, Volume 27, Issue 10, pp. 105009 (2010) Impact factor: 3.029

 

[R29] Gergely, L. A; „Spinning compact binary inspiral: Independent variables and dynamically preserved spin configurations”, Physical Review D, Volume 81, Issue 8, id. 084025 (2010) Impact factor: 4.922

 

[R28] Keresztes, Z., L. A. Gergely; „3+1+1 dimensional covariant gravitational dynamics on an asymmetrically embedded brane: The average equations”, Annalen der Physik, Volume 19, issue 3-5, pp. 249-253 (2010) Impact factor: 1.844

 

[R27] Lippai, Z., Z. Frei, Z. Haiman; „On the Occupation Fraction of Seed Black Holes in High-redshift Dark Matter Halos”, The Astrophysical Journal, Volume 701, Issue 1, pp. 360-368 (2009) Impact factor: 7.364

 

[R26] Haiman, Z., B. Kocsis, K. Menou, Z. Lippai, Z. Frei; "Identifying decaying supermassive black hole binaries from their variable electromagnetic emission", Classical and Quantum Gravity, Volume 26, Issue 9, pp. 094032 (2009) Impact factor: 3.029

 

[R25] Gergely, L. A., P. L. Biermann, B. Mikóczi, Z. Keresztes; "Renormalized spin coefficients in the accumulated orbital phase for unequal mass black hole binaries”, Classical and Quantum Gravity, Volume 26, Issue 20, pp. 204006 (2009) Impact factor: 3.029

 

[R24] Gergely, L. A., Z. Keresztes, M. Dwornik; „Second-order light deflection by tidal charged black holes on the brane”, Classical and Quantum Gravity, Volume 26, Issue 14, pp. 145002 (2009) Impact factor: 3.029

 

[R23] Gergely, L. A., P. L. Biermann; „The Spin-Flip Phenomenon in Supermassive Black hole binary mergers”, The Astrophysical Journal, Volume 697, Issue 2, pp. 1621-1633 (2009) Impact factor: 7.364

 

[R22] Gergely, L. A.; „Eötvös branes”, Physical Review D, Volume 79, Issue 8, id. 086007 (2009) Impact factor: 4.922

 

[R21] Keresztes, Z., L. A. Gergely, V. Gorini, U. Moschella, A. Y. Kamenshchik; „Tachyon cosmology, supernovae data, and the big brake singularity”, Physical Review D, Volume 79, Issue 8, id. 083504 (2009) Impact factor: 4.922

 

[R20] Gergely, L. A., B. Mikóczi; „Renormalized second post-Newtonian spin contributions to the accumulated orbital phase for LISA sources”, Physical Review D, Volume 79, Issue 6, id. 064023 (2009) Impact factor: 4.922

 

[R19] Biermann, P. L., J. K. Becker, L. Caramete, L. A. Gergely, I. C.  Mariº, A. Meli, V. de Souza, T. Stanev; „Active Galactic Nuclei:. Sources for Ultra High Energy Cosmic Rays”, International Journal of Modern Physics D, Volume 18, Issue 10, pp. 1577-1581 (2009) Impact factor: 1.046

 

[R18] Krühler, T., J. Greiner, S. McBreen, S. Klose, A. Rossi, P. Afonso, C. Clemens, R. Filgas, A. K. Yoldaº, G. P. Szokoly, A. Yoldaº; „Correlated Optical and X-Ray Flares in the Afterglow of XRF 071031”, The Astrophysical Journal, Volume 697, Issue 1, pp. 758-768 (2009) Impact factor: 7.364

 

[R17] Guidorzi, G., G. P. Szokoly, et al; „Rise and fall of the X-ray flash 080330: an off-axis jet?”, Astronomy and Astrophysics, Volume 499, Issue 2, 2009, pp.439-453 (2009) Impact factor: 4.179

 

[R16] Luo, B., G. P. Szokoly, et al; „Discovery of the Most Distant Double-Peaked Emitter at z = 1.369”, The Astrophysical Journal, Volume 695, Issue 2, pp. 1227-1232 (2009) Impact factor: 7.364

 

[R15] Greiner, J., G. P. Szokoly, et al; „The redshift and afterglow of the extremely energetic gamma-ray burst GRB 080916C”, Astronomy and Astrophysics, Volume 498, Issue 1, 2009, pp.89-94 (2009) Impact factor: 4.179

 

[R14] Greiner, J., G. P. Szokoly, et al; „A Strong Optical Flare Before the Rising Afterglow of GRB 080129”, The Astrophysical Journal, Volume 693, Issue 2, pp. 1912-1919 (2009) Impact factor: 7.364

 

[R13] Greiner, J., G. P. Szokoly, et al; „GRB 080913 at Redshift 6.7”, The Astrophysical Journal, Volume 693, Issue 2, pp. 1610-1620 (2009) Impact factor: 7.364

 

[R12] Lippai, Z., Z. Frei, Z. Haiman; „Prompt Shocks in the Gas Disk around a Recoiling Supermassive Black Hole Binary”, The Astrophysical Journal, Volume 676, Issue 1, pp. L5-L8. (2008) Impact factor: 7.364

 

[R11] Rossi, A., G. P. Szokoly, et al; „A photometric redshift of z = 1.8{+0.4}{-0.3} for the AGILE GRB 080514B”, Astronomy and Astrophysics, Volume 491, Issue 2, 2008, pp.L29-L32 (2008) Impact factor: 4.153

 

[R10] Krühler, T., G. P. Szokoly, et al; „The 2175 Å Dust Feature in a Gamma-Ray Burst Afterglow at Redshift 2.45”, The Astrophysical Journal, Volume 685, Issue 1, pp. 376-383. (2008) Impact factor: 6.331

 

[R9] Greiner, J., G. P. Szokoly, et al; „GROND—a 7-Channel Imager”, The Publications of the Astronomical Society of the Pacific, Volume 120, Issue 866, pp. 405-424. (2008) Impact factor: 3.010

 

[R8] Silverman, J. D., G. P. Szokoly, et al; „The Evolution of AGN Host Galaxies: From Blue to Red and the Influence of Large-Scale Structures”, The Astrophysical Journal, Volume 675, Issue 2, pp. 1025-1040. (2008) Impact factor: 6.331

 

[R7] Brunner, H., N. Cappelluti, G. Hasinger, X. Barcons, A. C. Fabian, V. Mainieri, G. P. Szokoly; „XMM-Newton observations of the Lockman Hole: X-ray source catalogue and number counts”, Astronomy and Astrophysics, Volume 479, Issue 1, pp. 283-300 (2008) Impact factor: 4.153

 

[R6] Sesana, A., A. Vecchio, C. N. Colacino; „The stochastic gravitational-wave background from massive black hole binary systems: implications for observations with Pulsar Timing Arrays”, Monthly Notices of the Royal Astronomical Society, Volume 390, Issue 1, pp. 192-209 (2008) Impact factor: 5.185

 

[R5] Kocsis, B., Z. Haiman, K. Menou, Z. Frei; „Premerger localization of gravitational-wave standard sirens with LISA: Harmonic mode decomposition”, Physical Review D, vol. 76, Issue 2, id. 022003 (2007) Impact factor: 4.706

 

[R4] Matone, L., P. Raffai, S. Márka, R. Grossman, P. Kalmus, Z. Márka, J. Rollins and V. Sannibale; „Benefits of Artificially Generated Gravity Gradients for Interferometric Gravitational Wave Detectors”, Classical and Quantum Gravity, Volume 24, pp. 2217-2229 (2007) Impact factor: 2.846

 

[R3] Takamori, A., P. Raffai, S. Márka, R. DeSalvo, V. Sannibale, H. Tariq, A. Bertolini, G. Cella, N. Viboud, K. Numata, R. Takahashi and M. Fukushima; „Inverted Pendulum as Low Frequency Pre-Isolation for Advanced Gravitational Wave Detectors”, Nuclear Instruments & Methods in Physics Research A, Volume 582, Issue 2, pp. 683-692 (2007) Impact factor: 1.019

 

[R2] Raffai, P., Z. Frei, Z. Márka and S. Márka; „How to find long narrow-band gravitational wave transients with unknown frequency evolution?”, Classical and Quantum Gravity, Volume 24, pp. S457-S468 (2007) Impact factor: 2.846

 

[R1] Giancarlo, C., C. N. Colacino, E. Cuoco, A. Di Virgilio, T. Regimbau, E. L. Robinson, J. T. Whelan; „Prospects for stochastic background searches using Virgo and LSC interferometers”, Classical and Quantum Gravity, Volume 24, Issue 19, pp. S639-S648 (2007) Impact factor: 2.846

 

 

 

LSC papers
 
[L79] Abbott, B. P., et al., "GW151226: Observation of Gravitational Waves from a 22-Solar-Mass Binary Black Hole Coalescence", Physical Review Letters, Vol. 116, aid. 241103, 2016. Impact factor: 7.645*

[L78] Abbott, B. P., et al., "Comprehensive All-sky Search for Periodic Gravitational Waves in the Sixth Science Run LIGO Data", Physical Review D, Vol. 94, Issue 4, id. 042002, 2016. Impact factor: 4.506*

[L77] Abbott, B. P., et al., "Search for transient gravitational waves in coincidence with short-duration radio transients during 2007–2013", Physical Review D, Vol. 93, Issue 12, id. 122008, 2016. Impact factor: 4.506*

[L76] Abbott, B. P., et al., "Localization and broadband follow-up of the gravitational-wave transient GW150914", The Astrophysical Journal Letters, Vol. 826, Issue 1, aid. L13, 2016. Impact factor: 5.487*

[L75] Adrián-Martínez, S., et al., "High-energy neutrino follow-up search of gravitational wave event GW150914 with ANTARES and IceCube", Physical Review D, Vol. 93, Issue 12, id. 122010, 2016. Impact factor: 4.506*

[L74] Abbott, B. P., et al., "GW150914: Implications for the stochastic gravitational wave background from binary black holes", Physical Review Letters, Vol. 116, aid. 131102, 2016. Impact factor: 7.645*

[L73] Abbott, B. P., et al., "Astrophysical Implications of the Binary Black Hole Merger GW150914", Astrophysical Journal Letters, Vol. 818, p. L22, 2016. Impact factor: 5.487*

[L72] Abbott, B. P., et al.,  "Characterization of transient noise in Advanced LIGO relevant to gravitational wave signal GW150914", Classical and Quantum Gravity, Vol. 33, Issue 13, aid. 134001, 2016. Impact factor: 2.837*

[L71] Abbott, B. P., et al.,  "Observing gravitational-wave transient GW150914 with minimal assumptions", Physical Review D, Vol. 93, Issue 12, id. 122004, 2016. Impact factor: 4.506*

[L70] Abbott, B. P., et al., "Tests of general relativity with GW150914", Physical Review Letters, Vol. 116, aid. 221101, 2016. Impact factor: 7.645*

[L69] Abbott, B. P., et al., "Properties of the binary black hole merger GW150914", Physical Review Letters, Vol. 116, aid. 241102, 2016. Impact factor: 7.645*

[L68] Abbott, B. P., et al.,  "GW150914: First results from the search for binary black hole coalescence with Advanced LIGO", Physical Review D, Vol. 93, Issue 12, id. 122003, 2016. Impact factor: 4.506*

[L67] Abbott, B. P., et al., "GW150914: The Advanced LIGO Detectors in the Era of First Discoveries", Physical Review Letters, Vol. 116, aid. 131103, 2016. Impact factor: 7.645*

[L66] Abbott, B. P., et al., "Observation of Gravitational Waves from a Binary Black Hole Merger", Physical Review Letters, Vol. 116, aid. 061102, 2016. Impact factor: 7.645*

[L65] Abbott, B. P., et al., "All-sky search for long-duration gravitational wave transients with initial LIGO", Physical Review D, Vol. 93, Issue 4, id. 042005, 2016. Impact factor: 4.506*

[L64] Aasi, J., et al., "First low frequency all-sky search for continuous gravitational wave signals", Physical Review D, Vol. 93, Issue 4, id. 042007, 2016. Impact factor: 4.506*

[L63] 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, Vol. 93, Issue 4, id. 042006, 2016. Impact factor: 4.506*
 
[L62] Aasi, J., et al., "Searches for continuous gravitational waves from nine young supernova remnants", The Astrophysical Journal, Vol. 813, p. 39, 2015. Impact factor: 5.909

[L61] Aasi, J., et al., "Advanced LIGO", Classical and Quantum Gravity, Vol. 32, Issue 7, aid. 074001, 2015. Impact factor: 2.837

[L60] Aasi, J., et al., "Directed search for gravitational waves from Scorpius X-1 with initial LIGO data", Physical Review D, Vol. 91, aid. 062008, 2015. Impact factor: 4.506

[L59] Aasi, J., et al., "Narrow-band search of continuous gravitational-wave signals from Crab and Vela pulsars in Virgo VSR4 data", Physical Review D, Vol. 91, aid. 022004, 2015. Impact factor: 4.506

[L58] Aasi, J., et al., "Characterization of the LIGO detectors during their sixth science run", Classical and Quantum Gravity, Vol. 32, Issue 11, aid. 115012, 2015. Impact factor: 2.837

[L57] Aasi, J., et al., "Searching for stochastic gravitational waves using data from the two co-located LIGO Hanford detectors", Physical Review D, Vol. 91, aid. 022003, 2015. Impact factor: 4.506

[L56] Aartsen, M., et al., "Multimessenger Search for Sources of Gravitational Waves and High-Energy Neutrinos: Results for Initial LIGO-Virgo and IceCube", Physical Review D, Vol. 90, aid. 102002, 2014. Impact factor: 4.643

[L55] Aasi, J., et al., "Improved Upper Limits on the Stochastic Gravitational-Wave Background from 2009-2010 LIGO and Virgo Data", Physical Review Letters, Vol. 113, Issue 23, id. 231101, 2014. Impact factor: 7.512
 
[L54] J. Aasi et al., "First all-sky search for continuous gravitational waves from unknown sources in binary systems", Physical Review D, Vol. 90, Issue 6, aid. 062010, 2014. Impact factor: 4.643
 
[L53] J. Aasi et al., "Implementation of an F-statistic all-sky search for continuous gravitational waves in Virgo VSR1 data", Classical and Quantum Gravity, Vol. 31, Issue 16, aid. 165014, 2014. Impact factor: 3.168
 
[L52] J. Aasi et al., “Search for Gravitational Waves Associated with γ-ray Bursts Detected by the Interplanetary Network”, Physical Review Letters, Vol. 113, aid. 011102, 2014. Impact factor: 7.512
 
[L51] J. Aasi el al., “Methods and results of a search for gravitational waves associated with gamma-ray bursts using the GEO 600, LIGO, and Virgo detectors”, Physical Review D, Vol. 89, Issue 12, aid. 122004, 2014. Impact factor: 4.463
 
[L50] J. 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, Vol. 89, Issue 12, aid. 122003, 2014. Impact factor: 4.643
 
[L49] J. Aasi et al., “Search for gravitational wave ringdowns from perturbed intermediate mass black holes in LIGO-Virgo data from 2005–2010”, Physical Review D, Vol. 89, Issue 10, aid. 102006, 2014. Impact factor: 4.643
 
[L48] J. Aasi et al., “The NINJA-2 project: Detecting and characterizing gravitational waveforms modelled using numerical binary black hole simulations”, Classical and Quantum Gravity, Vol. 31, Issue 11, aid. 115004, 2014. Impact factor: 3.168
 
[L47] J. Aasi et al., “Application of a Hough search for continuous gravitational waves on data from the 5th LIGO science run”, Classical and Quantum Gravity, Vol. 31, Issue 8, aid. 085014, 2014. Impact factor: 3.168
 
[L46] J. Aasi et al., “Constraints on cosmic strings from the LIGO-Virgo gravitational-wave detectors”, Physical Review Letters, Vol. 112, aid. 131101, 2014. Impact factor: 7.512
 
[L45] J. Aasi et al., “Gravitational Waves from Known Pulsars: Results from the Initial Detector Era”, The Astrophysical Journal, Vol. 785, Issue 2, aid. 119, pp. 18, 2014. Impact factor: 5.993
 
[L44] J. Aasi et al, "First searches for optical counterparts to gravitational-wave candidate events", The Astrophysical Journal Supplement, Vol. 211, Number 1, p. 7 (2014) Impact factor: 11.215
 
[L43] J. Aasi et al, "Search for long-lived gravitational-wave transients coincident with long gamma-ray bursts", Physical Review D, Vol. 88, Issue 12, p. 122004 (2013) Impact factor: 4.864
 
[L42] J. Aasi et al, "Directed search for continuous gravitational waves from the Galactic center", Physical Review D, Vol. 88, Issue 10, p. 102002 (2013) Impact factor: 4.864
 
[L41] J. Aasi et al, "Parameter estimation for compact binary coalescence signals with the first generation gravitational-wave detector network", Physical Review D, Vol. 88, Issue 6, p. 062001 (2013) Impact factor: 4.864
 
[L40] J. Aasi et al, "Enhanced sensitivity of the LIGO gravitational wave detector by using squeezed states of light", Nature Photonics, Vol. 7, Issue 8, pp. 613-619 (2013) Impact factor: 29.958
 
[L39] J. Aasi et al, "Search for gravitational waves from binary black hole inspiral, merger, and ringdown in LIGO-Virgo data from 2009–2010", Physical Review D, Vol. 87, Issue 2, p. 022002 (2013) Impact factor: 4.864
  
[L38] J. Aasi et al, "Einstein@Home all-sky search for periodic gravitational waves in LIGO S5 data", Physical Review D, Vol. 87, Issue 4, p. 042001 (2013) Impact factor: 4.864
 
[L37] 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, Vol. 2013, Issue 6, Aid. 008 (2013) Impact factor: 5.877
 
[L36] J. Abadie et al, "Search for Gravitational Waves Associated with Gamma-Ray Bursts during LIGO Science Run 6 and Virgo Science Run 2 and 3", The Astrophysical Journal, Vol. 760, Issue 1, p. 18 (2012) Impact factor: 6.733
 
[L35] P. A. Evans, et al, "Swift Follow-up Observations of Candidate Gravitational-wave Transient Events",  The Astrophysical Journal Supplement, Vol. 203, Issue 2, p. 14 (2012) Impact factor: 16.238
 
[L34] J. Aasi et al, "The characterization of Virgo data and its impact on gravitational-wave searches", Classical and Quantum Gravity, Vol. 29, Issue 15, p. 155002 (2012) Impact factor: 3.562
 
[L33] J. Abadie et al, "Implications for the Origin of GRB 051103 from LIGO Observations", The Astrophysical Journal, Vol. 755, Issue 1, p. 2, 2012. Impact factor: 6.733
 
[L32] J. Abadie et al, "All-sky search for gravitational-wave burts in the second joint LIGO-Virgo run", Physical Review D, Vol. 85, Issue 12, p. 122007 (2012) Impact factor: 4.691
 
[L31] J. Abadie et al, "Upper limits on a stochastic gravitational-wave background using LIGO and Virgo interferometers at 600-1000 Hz", Physical Review D, Vol. 85, Issue 12, p. 122001 (2012) Impact factor: 4.691
 
[L30] J. Abadie et al, "Search for gravitational waves from intermediate mass binary black holes", Physical Review D, Vol. 85, Issue 10, p. 102004 (2012) Impact factor: 4.691
 
[L29] J. Abadie et al, "First low-latency LIGO+Virgo search for binary inspirals and their electromagnetic counterparts", Astronomy & Astrophysics, Vol. 541, p. A155 (2012) Impact factor: 5.084
 
[L28] J. Abadie et al, "Search for gravitational waves from low mass compact binary coalescence in LIGO's sixth science run and Virgo's science run 2 and 3", Physical Review D, Vol. 85, Issue 8, p. 082002 (2012) Impact factor: 4.691
 
[L27] J. Abadie et al, "Implementation and testing of the first prompt search for gravitational wave transients with electromagnetic counterparts", Astronomy & Astrophysics, Vol. 539, p. A124 (2012) Impact factor: 5.084 

[L26] J. Abadie et al, "All-sky search for periodic gravitational wave in the full S5 LIGO data", Physical Review D, Vol. 85, p. 022001 (2012) Impact factor: 4.691

 

[L25] J. Abadie et al, "Directional limits on Persistent Gravitational Waves Using LIGO S5 Science Data", Physical Review Letters, Vol. 107, p. 271102 (2011) Impact factor: 7.370

 

[L24] J. Abadie et al, "A gravitational wave observatory operating beyound the quantum shot-noise limit", Nature Physics, Vol. 7, p. 962 (2011) Impact factor: 18.967

 

[L23] J. Abadie et al, "Beating the spin-down limit on gravitational wave emission from the Vela pulsar", The Astrophysical Journal, Vol. 737, p. 93 (2011) Impact factor: 6.024

 

[L22] J. Abadie et al, "Search for gravitational waves from binary black hole inspiral, merger and ringdown”, Physical Review D, Vol. 83, p. 122005 (2011) Impact factor: 4.558

 

[L21] J. Abadie et al, "Search for Gravitational Wave Bursts from Six Magnetars”, The Astrophysical Journal, Vol. 734, p. L35 (2011) Impact factor: 6.024 

 

[L20] The LIGO Scientific Collaboration; “Search for gravitational waves associated with the August 2006 timing glitch of the Vela pulsar”, Physical Review D, Volume 83, pp. 042001 (2011) Impact factor: 4.558

 

[L19] The LIGO Scientific Collaboration; "Calibration of the LIGO Gravitational Wave Detectors in the Fifth Science Run”, Nuclear Instruments & Methods in Physics Research A, Volume 624, pp. 223 (2010) Impact factor: 1.207

 

[L18] The LIGO Scientific Collaboration; "First search for gravitational waves from the youngest known neutron star”, The Astrophysical Journal, Volume 722, pp. 1504 (2010) Impact factor: 7.436

 

[L17] The LIGO Scientific Collaboration & The Virgo Collaboration; “Search for Gravitational Waves from Compact Binary Coalescence in LIGO and Virgo Data from S5 and VSR1”, Physical Review D, Volume 82, pp. 102001 (2010) Impact factor: 4.964

 

[L16] The LIGO Scientific Collaboration & The Virgo Collaboration; “Predictions for the Rates of Compact Binary Coalescences Observable by Ground-based Gravitational-wave Detectors”, Classical and Quantum Gravity, Volume 27, pp. 173001 (2010) Impact factor: 3.029

 

[L15] The LIGO Scientific Collaboration & The Virgo Collaboration; “All-sky search for gravitational-wave bursts in the first joint LIGO-GEO-Virgo run”, Physical Review D, Volume 81, pp. 102001 (2010) Impact factor: 4.964

 

[L14] The LIGO Scientific Collaboration & The Virgo Collaboration; “Search for gravitational-wave inspiral signals associated with short Gamma-Ray Bursts during LIGO’s fifth and Virgo’s first science run”, The Astrophysical Journal, Volume 715, pp. 1453 (2010) Impact factor: 7.436

 

[L13] The LIGO Scientific Collaboration & The Virgo Collaboration; „Search for gravitational-wave bursts associated with gamma-ray bursts using data from LIGO Science Run 5 and Virgo Science Run 1“, The Astrophysical Journal, Volume 715, pp. 1438 (2010) Impact factor: 7.436

 

[L12] The LIGO Scientific Collaboration & The Virgo Collaboration; „Searches for gravitational waves from known pulsars with S5 LIGO data“, The Astrophysical Journal, Volume 713, pp. 671 (2010) Impact factor: 7.436

 

[L11] Abbott, B., et al; „LIGO: The Laser Interferometer Gravitational-Wave Observatory“, Reports on Progress in Physics, Volume 72, pp. 076901 (2009) Impact factor: 12.090

 

[L10] Abbott, B., et al; „Search for High Frequency Gravitational Wave Bursts in the First Calendar Year of LIGO's Fifth Science Run”, Physical Review D, Volume 80, pp. 102002 (2009) Impact factor: 4.922

 

[L9] Abbott, B., et al; „Search for gravitational wave ringdowns from perturbed black holes in LIGO S4 data”, Physical Review D, Volume 80, pp. 062001 (2009) Impact factor: 4.922

 

[L8] Abbott, B., et al; „Search for gravitational-wave bursts in the first year of the fifth LIGO science run”, Physical Review D, Volume 80, pp. 102001 (2009) Impact factor: 4.922

 

[L7] Abbott, B., et al; „First LIGO search for gravitational wave bursts from cosmic (super)strings”, Physical Review D, Volume 80, pp. 062002 (2009) Impact factor: 4.922

 

[L6] The LIGO Scientific Collaboration & The Virgo Collaboration; „An upper limit on the stochastic gravitational-wave background of cosmological origin”, Nature, Volume 460, pp. 990-994 (2009) Impact factor: 34.480

 

[L5] The LIGO Scientific Collaboration; „Stacked Search for Gravitational Waves from the 2006 SGR 1900+14 Storm”, The Astrophysical Journal, Volume 701, pp. L68-L74 (2009) Impact factor: 7.364

 

[L4] The LIGO Scientific Collaboration; „Einstein@Home search for periodic gravitational waves in early S5 LIGO data”, Physical Review D, Volume 80, pp. 042003 (2009) Impact factor: 4.922

 

[L3] The LIGO Scientific Collaboration; „Search for Gravitational Waves from Low Mass Compact Binary Coalescence in 186 Days of LIGO's fifth Science Run”, Physical Review D, Volume 80, pp. 047101 (2009) Impact factor: 4.922

 

[L2] Abbott, B., et al; „Search for Gravitational Waves from Low Mass Binary Coalescences in the First Year of LIGO's S5 Data”, Physical Review D, Volume 79, pp. 122001 (2009) Impact factor: 4.922

 

[L1] Abbott, B., et al; „All-sky LIGO Search for Periodic Gravitational Waves in the Early S5 Data”, Physical Review Letters, Volume 102, pp. 111102 (2009) Impact factor: 7.328 

 

 

Conference proceedings

 

[P15] Acernese F., ..., Raffai, P., et al.; "Concepts and research for future detectors", General Relativity and Gravitation, Vol. 46, p. 1700 (2014) Impact factor: 1.771

 

[P14] Raffai, P., L. Gondán, I. S. Heng, N. Kelecsényi, J. Logue, Z. Márka and S. Márka; “Optimal network configurations for future gravitational-wave detectors”, General Relativity and Gravitation, Vol. 46, p. 1700 (2014) 
 
[P13] Baret, B., I. Bartos, B. Bouhou, E. Chassande-Mottin, A. Corsi, I. Di Palma, C. Donzaud, M. Drago, C. Finley, G. Jones, S. Klimenko, A. Kouchner, S. Márka, Z. Márka, L. Moscoso, M. A. Papa, T. Pradier, G. Prodi, P. Raffai, V. Re, J. Rollins, F. Salemi, P. Sutton, M. Tse, V. Van Elewyck and G. Vedovato; „ Multimessenger Sources of Gravitational Waves and High-energy Neutrinos: Science Reach and Analysis Method”, Journal of Physics: Conference Series, Vol. 363, Issue 1, p. 012022 (2012)
 

[P12] Veréb, L., Z. Keresztes, P. Raffai, Zs. Udvari, M. Tápai, L. Á. Gergely; “Compact binary waveform recovery from the cross-correlated data of two detectors by matched filtering with spinning templates”, Journal of Physics: Conference Series, Vol. 243, pp. 012008 (2010)

 

[P11] Veréb, L., Z. Keresztes, P. Raffai, S. Mészáros, L. Á. Gergely; „Recovering a spinning inspiralling compact binary waveform immersed in LIGO-like noise with spinning templates”, Journal of Physics: Conference Series, Volume 228, pp. 012003 (2010)

 

[P10] Gergely, L. A., Z. Keresztes, A. T. Kamenshchik, V. Gorini, U. Moschella; „Do supernovae favor tachyonic Big Brake instead of de Sitter?”, INVISIBLE UNIVERSE: Proceedings of the Conference. AIP Conference Proceedings, Volume 1241, pp. 884-891 (2010)

 

[P9] Keresztes, Z., B. Mikóczi, L. A. Gergely, M. Vasúth; „Secular momentum transport by gravitational waves from spinning compact binaries”, Journal of Physics: Conference Series, Volume 228, Issue 1, pp. 012053 (2010)

 

[P8] Biermann, P. L., J. Becker, L. Caramete, A. Curuþiu, R. Engel, H. Falcke, L. A. Gergely, P. G. Isar, I. C. Mariº, A. Meli, K. H. Kampert, T. Stanev, O. Taºcãu, C. Zier; „Active Galactic Nuclei: Sources for ultra high energy cosmic rays?”, Nuclear Physics B Proceedings Supplements, Volume 190, p. 61-78 (2009)

 

[P7] Raffai, P., S. Márka, L. Matone and Z. Márka; „Concept Study of Yukawa-like Potential Tests Using Dynamic Gravity Gradients with Interferometric Gravitational Wave Detectors“, Proceedings of the Eleventh Marcel Grossmann Meeting on General Relativity, edited by H. Kleinert, R.T. Jantzen and R. Ruffini, World Scientific, Singapore, pp. 2382-2385 (2008)

 

[P6] Kocsis, B., Z. Haiman, Z. Frei; “Detecting Virialization Shocks Around Galaxy Clusters Through the SZ Effect”, Relativistic Astrophysics Legacy and Cosmology - Einstein's, ESO Astrophysics Symposia, Volume ISBN 978-3-540-74712-3. Springer-Verlag Berlin Heidelberg, 2008, p. 334 (2008)

 

[P5] Gáspár, M. E., Z. Haiman, Z. Frei; “Mass Function of Remnant Black Holes in Nearby Galaxies”, Relativistic Astrophysics Legacy and Cosmology - Einstein's, ESO Astrophysics Symposia, Volume . ISBN 978-3-540-74712-3. Springer-Verlag Berlin Heidelberg, 2008, p. 138 (2008)

 

[P4] Kocsis, B., Z. Frei, Z. Haiman, K. Menou; “Finding the Electromagnetic Counterparts of Standard Sirens”, Relativistic Astrophysics Legacy and Cosmology - Einstein's, ESO Astrophysics Symposia, Volume . ISBN 978-3-540-74712-3. Springer-Verlag Berlin Heidelberg, 2008, p. 82 (2008)

 

[P3] Haiman, Z., B. Kocsis, K. Menou, Z. Lippai, Z. Frei; “Identifying Gravitationally Inspiraling Black Hole Binaries Using their Variable Electromagnetic Emission”, Panoramic Views of Galaxy Formation and Evolution ASP Conference Series, Vol. 399, proceedings of the conference held 11-16 December, 2007, at Shonan Village Center, Hayama, Japan. Edited by Tadayuki Kodama, Toru Yamada, and Kentaro Aoki. San Francisco: Astronomical Society of the Pacific (2008)

 

[P2] Yoldaº, A. K., G. P. Szokoly, et al; „First Results of GROND”, GAMMA-RAY BURSTS 2007: Proceedings of the Santa Fe Conference. AIP Conference Proceedings, Volume 1000, pp. 227-231 (2008)

 

[P1] Burwitz, V., E. Rovilos, G. P. Szokoly, G. Hasinger; „Optical identification of XMM-Newton detected sources in the Lockman Hole”, "The X-ray Universe 2008" Symposium held in Granada, Spain, 27-30 May, 2008; Published online at http://xmm.esac.esa.int/external/xmm_science/workshops/2008symposium, p.236 (2008)

 

 

Selected LIGO documents

   

[D13] Gondán, L., Raffai, P., Szölgyén, Á., Frei, Z.;  A galaxy-by-galaxy estimation of compact binary coalescence detection rates , LIGO Document P1400119 (2015)

 

[D12] Gondán, L., Kocsis, B., Raffai, P., Frei, Z.;  The eccentricity distribution of stellar mass black hole mergers in galactic nuclei , LIGO Document P1400118 (2015)

 

[D11] Gondán, L., P. Raffai, B. Kocsis, Z. Frei; "Investigation of Non-Spinning Eccentric Black Hole Binary Waveforms", LIGO Document T1200340 (2012)

[D10] Szeifert, G., G. Gelencsér, Z. Frei; “Infrasound Microphone Design Requirements Document", LIGO Document T1200135 (2012)

 

[D9] Raffai, P., I. Belopolski, S. Countryman, Z. Marka, D. Sigg; “The Advanced LIGO Timing System Timing Comparator/Radio Frequency Counter Module”, LIGO Document T1200331 (2012)

 

[D8] Szeifert, G., P. Raffai, G. Gelencsér, Z. Frei; „The effects of infrasound on interferometric gravitational-wave detectors”, LIGO Document T1000585 (2011)

 

[D7] Raffai, P., P. Handbauer; „An X-ray source catalog for joint gravitational wave and X-ray observations”, LIGO Document T1000305 (2010)

 

[D6] Raffai, P.; „LUMIN Expert Shifter Manual”, LIGO Document M1000224 (2010)

 

[D5] Raffai, P., Z. Frei, S. Márka, Z. Márka; „Searching for inspiral-type gravitational wave signals in time-frequency space”,  LIGO Document P080012 (2010)

 

[D4] Gelencsér, G., G. Szeifert, P. Raffai, L. Kanász-Nagy, G.Szokoly, S. Hopp; „User's manual for the Infrasonic Microphone System developed by Eötvös Gravity Research Group”, LIGO Document E1000282 (2010)

 

[D3] Takamori, A.,  P. Raffai, S. Márka, R. DeSalvo, V. Sannibale, H. Tariq, A. Bertolini, G. Cella, N. Viboud, K. Numata, R. Takahashi, M. Fukushima; „Inverted pendulum as low-frequency pre-isolation for advanced gravitational wave detectors”, LIGO Document P070090 (2009)

 

[D2] Raffai, P., Z. Frei, S. Márka, Z. Márka; „How to find long narrow-band gravitational wave transients with unknown frequency evolution”, LIGO Document P070025 (2009)

 

[D1] Szokoly, G., G. Gelencsér, G. Szeifert, S. Hopp, Z. Frei, Á. Marton; „Infrasonic Microphone and PEM++”, LIGO Document E080462 (2009)

 

 

Theses

 

[T13] Gondán, L.; "Astrophysical applications of gravitational waves", PhD thesis, in preparation

 

[T12] Bécsy, B.; "Asztrofizikai információk kinyerése gravitációshulám-kitörések megfigyelésébõl", BSc diploma thesis, Loránd Eötvös University, Budapest (2016)

 

[T11] Szölgyén, Á.; "Optimális földi detektorhálózatok a gravitációshullám-csillagászatban", BSc diploma thesis, Loránd Eötvös University, Budapest (2014)

 

[T10] Tajkov, Z.; "Az elnyúlt pályájú kettõsrendszerek fizikája", BSc diploma thesis, Loránd Eötvös University, Budapest (2014)

 

[T9] Bántó, B.; "Interferometrikus gravitációshullám-detektorok h_{mu nu} - h(t) átviteli függvénye", BSc diploma thesis, Loránd Eötvös University, Budapest (2013)

 

[T8] Kovács, O.; "Multimessenger csillagászat gravitációshullám- és röntgendetektorokkal", BSc diploma thesis, Loránd Eötvös University, Budapest (2013)

 

[T7] Raffai, P.; "Az interferometrikus gravitációshullám-detektorok alkalmazása az asztrofizikában és a gravitációkutatásban", PhD doctoral thesis, Loránd Eötvös University, Budapest (2012)

 

[T6] Szeifert, G.; "Infrahang mikrofon digitális komponenseinek fejlesztése az Advanced LIGO számára", BSc diploma thesis, Loránd Eötvös University, Budapest (2011)

 

[T5] Gelencsér, G.; "Infrahang mikrofon analóg elektronikájának fejlesztése az Advanced LIGO-ba", BSc diploma thesis, Loránd Eötvös University, Budapest (2011)

 

[T4] Angler, G; "Interferometrikus gravitációshullám-detektorok adatának analízise idõ-frekvencia térben", BSc diploma thesis, Loránd Eötvös University, Budapest (2010)

 

[T3] Keresztes, Z.; "Randall-Sundrum 2-es típusú bránelméletek és tachion sötét energia modell", Phd thesis, University of Szeged, Szeged (2010)

 

[T2] Frei, Z.; "Az Univerzum fejlõdésének vizsgálata gravitációs és fényhullámok együttes megfigyelésével", MTA doctoral thesis, Hungarian Academy of Sciences, Budapest (2009)

 

[T1] Raffai, P.; "Kvázi-monokromatikus gravitációs hullámok keresése idõ-frekvencia térben", MSc diploma thesis, Loránd Eötvös University, Budapest (2006)

 

 

Outreach publications 

 

[O3] Dálya, G., Bécsy, B., Raffai, P.; "GW150914: elõször hallottuk az Univerzum zenéjét" (in Hungarian), Meteor, Vol. XLVI., Issue 3. (480.), 2016.

[O2] Bécsy, B., Dálya, G., Raffai, P.; "Interferométerekkel a gravitációs hullámok nyomában" (in Hungarian), Természet Világa, Vol. 147., Issue 3., 2016.

 

[O1] Raffai, P., Bartos, I.; "Gravitációs hullámok kutatása", Középiskolai Matematikai és Fizikai Lapok (2006)

 

   
  (c) Eötvös Gravity Research Group 2007