Publications

Preprints

  1. A flow approach to Bartnik’s static metric extension conjecture
    in axisymmetry
    Carla Cederbaum, Oliver Rinne and Markus Strehlau (2019)
    [arXiv]

Papers in refereed journals

  1. Critical phenomena in the general spherically symmetric Einstein-Yang-Mills system
    Maciej Maliborski and Oliver Rinne
    Phys. Rev. D 97 044053 (2018)
    [doiarXiv]
  2. Superradiance of a charged scalar field coupled to the Einstein-Maxwell equations
    Olaf Baake and Oliver Rinne
    Phys. Rev. D 94 124016 (2016)
    [doiarXiv]
  3. Numerical construction of initial data for Einstein’s equations with static extension to space-like infinity
    Georgios Doulis and Oliver Rinne
    Class. Quantum Grav. 33 075014 (2016)
    [doiarXiv]
  4. Constructing reference metrics on multicube representations of arbitrary manifolds
    Lee Lindblom, Nicholas Taylor and Oliver Rinne
    J. Comput. Phys. 313 31-56 (2016)
    [doiarXiv]
  5. Formation and decay of Einstein-Yang-Mills black holes
    Oliver Rinne
    Phys. Rev. D 90 124084 (2014)
    [doiarXiv]
  6. Hyperboloidal Einstein-matter evolution and tails for scalar and Yang-Mills fields
    Oliver Rinne and Vincent Moncrief
    Class. Quantum Grav. 30(9) 095009 (2013)
    [doiarXiv]
  7. An axisymmetric evolution code for the Einstein equations on hyperboloidal slices
    Oliver Rinne
    Class. Quantum Grav. 27(3) 035014 (2010)
    [doiarXiv]
  8. Testing gravitational-wave searches with numerical relativity waveforms: Results from the first Numerical INJection Analysis (NINJA) project
    Benjamin Aylott et al.
    Class. Quantum Grav. 26(16) 165008 (2009)
    [doiarXiv]
  9. Regularity of the Einstein equations at future null infinity
    Vincent Moncrief and Oliver Rinne
    Class. Quantum Grav. 26(12) 125010 (2009)
    [doiarXiv]
    One of the journal’s Highlights of 2008 and 2009
  10. Status of NINJA: the Numerical INJection Analysis project
    Laura Cadonati et al.
    Class. Quantum Grav. 26(11) 114008 (2009)
    [doiarXiv]
  11. Implementation of higher-order absorbing boundary conditions for the Einstein equations
    Oliver Rinne, Luisa Buchman, Mark Scheel and Harald Pfeiffer
    Class. Quantum Grav. 26(7) 075009 (2009)
    [doiarXiv]
  12. Explicit solution of the linearized Einstein equations in the transverse-traceless gauge for all multipoles
    Oliver Rinne
    Class. Quantum Grav. 26(4) 048003 (2009)
    [doiarXiv]
  13. Constrained evolution in axisymmetry and the gravitational collapse of prolate Brill waves
    Oliver Rinne
    Class. Quantum Grav. 25(13) 135009 (2008)
    [doiarXiv]
    One of the journal’s Highlights of 2008 and 2009
  14. Gauge drivers for the generalized harmonic Einstein equations
    Lee Lindblom, Keith Matthews, Oliver Rinne and Mark Scheel
    Phys. Rev. D 77 084001 (2008)
    [doiarXiv]
  15. Outer boundary conditions for Einstein’s field equations in harmonic coordinates
    Milton Ruiz, Oliver Rinne and Olivier Sarbach
    Class. Quantum Grav. 24(24) 6349-6377 (2007)
    [doiarXiv]
  16. Testing outer boundary treatments for the Einstein equations
    Oliver Rinne, Lee Lindblom and Mark Scheel
    Class. Quantum Grav. 24(16) 4053-4078 (2007)
    [doiarXiv]
  17. Solving Einstein’s equations with dual coordinate frames
    Mark Scheel, Harald Pfeiffer, Lee Lindblom, Laurence Kidder, Oliver
    Rinne and Saul Teukolsky
    Phys. Rev. D 74 104006 (2006)
    [doiarXiv]
  18. Stable radiation-controlling boundary conditions for the generalized harmonic Einstein equations
    Oliver Rinne
    Class. Quantum Grav. 23(22) 6275-6300 (2006)
    [doiarXiv]
  19. A new generalized harmonic evolution system
    Lee Lindblom, Mark Scheel, Laurence Kidder, Robert Owen and Oliver Rinne
    Class. Quantum Grav. 23(16) S447-S462 (2006)
    [doiarXiv]
    One of the journal’s Highlights of 2006 and 2007
  20. A strongly hyperbolic and regular reduction of Einstein’s equations for axisymmetric spacetimes
    Oliver Rinne and John Stewart
    Class. Quantum Grav. 22(6) 1143-1166 (2005)
    [doiarXiv]
    One of the journal’s Highlights of 2004 and 2005

Theses

  1. Numerical and analytical methods for asymptotically flat spacetimes
    Oliver Rinne
    Habilitation thesis, Freie Universität Berlin (2014)
    [arXiv]
  2. Axisymmetric numerical relativity
    Oliver Rinne
    PhD thesis, University of Cambridge (2005)
    [arXiv]
  3. Numerical studies of axisymmetric spacetimes
    Oliver Rinne
    Diplomarbeit, University of Heidelberg (2003)
  4. Quantum Cosmology
    Oliver Rinne
    Part III Essay (MMath), University of Cambridge (2002)

Conference proceedings

  1. Critical phenomena in the general spherically symmetric Einstein-Yang-Mills system
    Oliver Rinne and Maciej Maliborski
    Mathematical General Relativity, Mathematisches Forschungsinstitut Oberwolfach, Germany, August 2018
    Oberwolfach Reports 15(3) 2179-2182 (2018)
    [doi]
  2. Numerical Brill-Lindquist initial data with a Schwarzschildean end at spatial infinity
    Georgios Doulis and Oliver Rinne
    Spanish Relativity Meeting, Valencia, Spain, September 2014
    J. Phys.: Conf. Ser. 600 012039 (2015)
    [doiarXiv]
  3. Spectral approach to axisymmetric evolution of Einstein’s equations
    Christian Schell and Oliver Rinne
    Spanish Relativity Meeting, Valencia, Spain, September 2014
    J. Phys.: Conf. Ser. 600 012060 (2015)
    [doiarXiv]
  4. Evolution of the Einstein equations to future null infinity
    Oliver Rinne and Vincent Moncrief
    Relativity and Gravitation: 100 Years after Einstein in Prague,
    Prague, Czech Republic, June 2012
    Springer Proceedings in Physics 157 199-206 (2014)
    [doi]
  5. Evolution of the Einstein equations on constant mean curvature surfaces
    Oliver Rinne and Vincent Moncrief
    Geometric Partial Differential Equations: Theory, Numerics and Applications,
    Mathematisches Forschungsinstitut Oberwolfach, Germany, November 2011
    Oberwolfach Reports 8(4) 3093-96 (2011)
    [doi]
  6. Implementation of absorbing boundary conditions for the Einstein equations
    Oliver Rinne, Luisa Buchman, Mark Scheel and Harald Pfeiffer
    Physics and Mathematics of Gravitation: Spanish Relativity Meeting,
    University of Salamanca, Spain, September 2008,
    AIP Conf. Proc. 1122 384-387 (2009)
    [doi]
  7. Gravitational collapse of prolate Brill waves
    Oliver Rinne
    Physics and Mathematics of Gravitation: Spanish Relativity Meeting,
    University of Salamanca, Spain, September 2008,
    AIP Conf. Proc. 1122 380-383 (2009)
    [doi]
  8. A new generalized harmonic evolution system
    Lee Lindblom, Mark Scheel, Laurence Kidder, Robert Owen and Oliver Rinne
    Mathematical Aspects of General Relativity, Mathematisches Forschungsinstitut Oberwolfach, Germany, January 2006
    Oberwolfach Reports 3(1) 93-96 (2006)
    [doi]
  9. A new generalized harmonic evolution system
    Lee Lindblom, Mark Scheel, Laurence Kidder, Robert Owen and Oliver Rinne
    VII Asia-Pacific International Conference on Gravitation and Astrophysics,
    National Central University, Taiwan, November 2005
    World Scientific, pp 23-30
    [doi]

Other publications

  1. From here to infinity on a single computer
    Oliver Rinne
    Triennial Report 2010-2012, Max Planck Institute for Gravitational Physics,
    pp 49-52 (2014)
    [pdf]
  2. Raumzeiten bis ins Unendliche rechnen
    Oliver Rinne
    Jahrbuch der Max-Planck-Gesellschaft (2014)
    [url]
  3. Status of formulations for numerical relativity
    Oliver Rinne
    Newsletter of the Gravitational Physics Group of the Institute of
    Physics 3 10-14 (2008)
    [pdf]