Publikationen des Albert-Einstein-Instituts in Potsdam

Zeitschriftenartikel (99)

  1. 21.
    Arutyunov, G.; Sokatchev, E.: Conformal fields in the pp-wave limit. Journal of High Energy Physics 2002 (8), 014 (2002)
  2. 22.
    Arutyunov, G.; Eden, B. U.; Petkou, A. C.; Sokatchev, E.: Exceptional non-renormalization properties and OPE analysis of chiral four-point functions in N=4 SYM_4. Nuclear Physics B 620, S. 380 - 404 (2002)
  3. 23.
    Arutyunov, G.; Sokatchev, E.: Implications of Superconformal Symmetry for Interacting (2,0) Tensor Multiplets. Nuclear Physics B 635, S. 3 - 32 (2002)
  4. 24.
    Ashtekar, A.; Krishnan, B.: Dynamical Horizons: Energy, Angular Momentum, Fluxes and Balance Laws. Physical Review Letters 89, 261101 (2002)
  5. 25.
    Astone, P.; Bassan, M.; Bonifazi, P.; Carelli, P.; Coccia, E.; Cosmelli, C.; D'Antonio, S.; Fafone, V.; Frasca, S.; Minenkov, Y. et al.; Modena, I.; Modestino, G.; Moleti, A.; Pallottino, G. V.; Papa, M. A.; Pizzella, G.; Quintieri, L.; Terenzi, R.; Visco, M.: Search for Periodic Gravitational Wave Sources with the EXPLORER detector. Physical Review D 65 65, 022001 (2002)
  6. 26.
    Baker, J. G.; Campanelli, M.; Lousto, C. O.: The Lazarus project: A pragmatic approach to binary black hole. Physical Review D 65, 044001 (2002)
  7. 27.
    Barack, L.; Mino, Y.; Nakano, H.; Ori, A.; Sasaki, M.: Calculating the gravitational self force in Schwarzschild spacetime. Physical Review Letters 88, 091101 (2002)
  8. 28.
    Barack, L.; Ori, A.: Regularization parameters for the self force in Schwarzschild spacetime: 1. scalar case. Physical Review D 66, 084022 (2002)
  9. 29.
    Barack, L.; Lousto, C. O.: Computing the gravitational self-force on a compact object plunging into a Schwarzschild black hole. Physical Review D 66, 061502 (2002)
  10. 30.
    Baumgärtel, H.; Lledo, F.: Dual Group Actions on C*-Algebras and Their Description by Hilbert Extensions. Mathematische Nachrichten 239-240, S. 11 - 27 (2002)
  11. 31.
    Beyer, H. R.: Results on the spectrum of R-Modes of slowly rotating relativistic stars. (2002)
  12. 32.
    Bicak, J.; Krtous, P.: The Fields of Uniformly Accelerated Charges in de Sitter Spacetime. Physical Review Letters 88, 211101 (2002)
  13. 33.
    Bondarescu, M.; Alcubierre, M.; Seidel, E.: Isometric embeddings of black hole horizons in three-dimensional flat space. Classical and Quantum Gravity 19, S. 375 - 391 (2002)
  14. 34.
    Buonanno, A.; Chen, Y.: Signal recycled laser-interferometer gravitational-wave detectors as optical springs. Physical Review D 65, 042001 (2002)
  15. 35.
    Buonanno, A.; Chen, Y.: Laser-interferometer gravitational-wave optical-spring detectors. Classical and Quantum Gravity 19 (7), S. 1569 - 1574 (2002)
  16. 36.
    Buonanno, A.: Gravitational waves from inspiraling binary black holes. Classical and Quantum Gravity 19 (7), S. 1267 - 1278 (2002)
  17. 37.
    Cutler, C.: Gravitational Waves from Neutron Stars with Large Toroidal B-fields. Physical Review D 66, 084025 (2002)
  18. 38.
    Dain, S.; Lousto, C. O.; Takahashi, R.: New conformally flat initial data for spinning black holes. Physical Review D 65, 104038 (2002)
  19. 39.
    Dain, S.: Black Hole Interaction Energy. Physical Review D 66, 084019 (2002)
  20. 40.
    Dain, S.; Nagy, G.: Initial data for fluid bodies in general relativity. Physical Review D 65, S. 084020 (2002)
 
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