1. John, Anslyn J., & Stevens, C.,
    Accretion onto deformed black holes via pseudo-Newtonian potentials,
    arXiv preprint arXiv:1904.10377 (2019)
  2. Doulis G., Frauendiener, J., Stevens, C., & Whale, B.,
    COFFEE-An MPI-parallelized Python package for the numerical evolution of differential equations,
    SoftwareX (2019) 100283
  3. John, A., & Stevens, C.,
    Bondi accretion in the spherically symmetric Johannsen-Psaltis space-time,
    European Physical Journal C (2019) 79:962
  4. Barack, L., et al.
    Black holes, gravitational waves and fundamental physics: a roadmap,
    Classical and quantum gravity 36.14 (2019): 143001.
  5. Beyer, F., Frauendiener, J., Stevens, C., & Whale, B.,
    The numerical initial boundary value problem for the generalized conformal field equations,
    Physical Review D 96 (2017): 084020.
  6. Frauendiener, J., Stevens, C., and Whale, B.,
    Numerical evolution of plane gravitational waves in the Friedrich-Nagy gauge,
    Physical Review D 89.10 (2014): 104026.
  7. Barker, R. J., et al.
    Closedpopulation capture–recapture modeling of samples drawn one at a time,
    Biometrics 70.4 (2014): 775-782.