Publications of the Albert Einstein Institute in Potsdam

Journal Article (3086)

  1. 21.
    Harry, I.; Calderón Bustillo, J.; Nitz, A. H.: Searching for the full symphony of black hole binary mergers. Physical Review D 97, 023004 (2018)
  2. 22.
    He, S.; Sun, J.-R.; Zhang, H.-Q.: On Holographic Entanglement Entropy with Second Order Excitations. Nuclear Physics B 928, pp. 160 - 181 (2018)
  3. 23.
    Healy, J.; Lange, J.; O'Shaughnessy, R.; Lousto, C.; Campanelli, M.; Williamson, A.; Zlochower, Y.; Bustillo, J. C.; Clark, J.; Evans, C. et al.; Ferguson, D.; Ghonge, S.; Jani, K.; Khamesra, B.; Laguna, P.; Shoemaker, D. M.; Garcia, A.; Boyle, M.; Hemberger, D.; Kidder, L.; Kumar, P.; Lovelace, G.; Pfeiffer, H.; Scheel, M.; Teukolsky, S.: Targeted numerical simulations of binary black holes for GW170104. Physical Review D 97 (6), 064027 (2018)
  4. 24.
    Henneaux, M.; Troessaert, C.: BMS Group at Spatial Infinity: the Hamiltonian (ADM) approach. Journal of high energy physics: JHEP 2018 (03), 147 (2018)
  5. 25.
    Henneaux, M.; Lekeu, V.; Leonard, A.: The Action of the (free) (4,0)-theory. Journal of high energy physics: JHEP 2018 (01), 114 (2018)
  6. 26.
    Huerta, E. A.; Moore, C. J.; Kumar, P.; George, D.; Chua, A. J. K.; Haas, R.; Wessel, E.; Johnson, D.; Glennon, D.; Rebei, A. et al.; Holgado, A. M.; Gair, J. R.; Pfeiffer, H.: Eccentric, nonspinning, inspiral, Gaussian-process merger approximant for the detection and characterization of eccentric binary black hole mergers. Physical Review D 97, 024031 (2018)
  7. 27.
    Kawaguchi, K.; Kyutoku, K.; Nakano, H.; Shibata, M.: Extracting the orbital axis from gravitational waves of precessing binary systems. Physical Review D 97, 024017 (2018)
  8. 28.
    Kawaguchi, K.; Kiuchi, K.; Kyutoku, K.; Sekiguchi, Y.; Shibata, M.; Taniguchi, K.: Frequency-domain gravitational waveform models for inspiraling binary neutron stars. Physical Review D 97, 044044 (2018)
  9. 29.
    Kuzenko, S. M.; Novak, J.; Theisen, S.: Non-conformal supercurrents in six dimensions. Journal of high energy physics: JHEP 2018 (02), 030 (2018)
  10. 30.
    Kyutoku, K.; Kiuchi, K.; Sekiguchi, Y.; Shibata, M.; Taniguchi, K.: Neutrino transport in black hole-neutron star binaries: neutrino emission and dynamical mass ejection. Physical Review D 97, 023009 (2018)
  11. 31.
    Lee , S.; Schlotterer, O.: Fermionic one-loop amplitudes of the RNS superstring. Journal of high energy physics: JHEP 2018 (03), 190 (2018)
  12. 32.
    Lewandowski, A.; Meissner, K.; Nicolai, H.: Conformal Standard Model, Leptogenesis and Dark Matter. Physical Review D 97 (3), 035024 (2018)
  13. 33.
    Lewis, A. G. M.; Pfeiffer, H.: GPU-accelerated simulations of isolated black holes. Classical and Quantum Gravity 35 (9), 095017 (2018)
  14. 34.
    London, L.; Khan, S.; Fauchon-Jones, E.; Forteza, X. J.; Hannam, M.; Husa, S.; Kalaghatgi, C.; Ohme, F.; Pannarale, F.: First higher-multipole model of spinning binary-black-hole gravitational waveforms. Physical Review Letters 120, 161102 (2018)
  15. 35.
    Maliborski, M.; Rinne, O.: Critical phenomena in the general spherically symmetric Einstein-Yang-Mills system. Physical Review D 97, 044053 (2018)
  16. 36.
    Mars, M.; Paganini, C.; Oancea, M. A.: The fingerprints of black holes-shadows and their degeneracies. Classical and quantum gravity 35 (2), 025005 (2018)
  17. 37.
    Maureira-Fredes, C.; Amaro-Seoane, P.: GraviDy, a GPU modular, parallel direct-summation N-body integrator: Dynamics with softening. Monthly Notices of the Royal Astronomical Society 473 (3), pp. 3113 - 3127 (2018)
  18. 38.
    Meadors, G. D.; Krishnan, B.; Papa, M. A.; Whelan, J. T.; Zhang, Y.: Resampling to accelerate cross-correlation searches for continuous gravitational waves from binary systems. Physical Review D 97, 044017 (2018)
  19. 39.
    Meidam, J.; Tsang, K. W.; Goldstein, J.; Agathos, M.; Ghosh, A.; Haster, C.-J.; Raymond, V.; Schmidt, P.; Smith, R.; Blackburn, K. et al.; Del Pozzo, W.; Field, S. E.; Li, T.; Pürrer, M.; Broeck, C. V. D.; Veitch, J.; Vitale, S.: Parametrized tests of the strong-field dynamics of general relativity using gravitational wave signals from coalescing binary black holes: Fast likelihood calculations and sensitivity of the method. Physical Review D 97, 044033 (2018)
  20. 40.
    Ming, J.; Papa, M. A.; Krishnan, B.; Prix, R.; Beer, C.; Zhu, S.; Eggenstein, H.-B.; Bock, O.; Machenschalk, B.: Optimally setting up directed searches for continuous gravitational waves in Advanced LIGO O1 data. Physical Review D 97, 024051 (2018)
 
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