Research Articles

  1. V. Susoy, W. J. Joyce, S. J. Rahi, sto-3 is expressed in R4BL/R and R8BL/R, male-specific ray neurons in C. elegans, microPublication Biology (2019), link
  2. E. V. Nikolaev, S. J. Rahi, E. D. Sontag, Subharmonics and chaos in simple periodically forced biomolecular models, Biophys J. 114, 1232-1240 (2018), link
  3. S. J. Rahi, J. Larsch, K. Pecani, A. Y. Katsov, N. Mansouri, K. Tsaneva-Atanasova, E. D. Sontag, F. R. Cross, Oscillatory stimuli differentiate adapting circuit topologies, Nature Methods 14, 1010-1016 (2017), link
  4. S. J. Rahi, K. Pecani, A. Ondracka, C. Oikonomou, F. R. Cross, The CDK-APC/C oscillator predominantly entrains periodic cell-cycle transcription, Cell 165, 475-487 (2016), link
  5. N. Graham, A. Shpunt, T. Emig, S. J. Rahi, R. L. Jaffe, M. Kardar, Electromagnetic Casimir Forces of Parabolic Cylinder and Knife-Edge Geometries, Phys. Rev. D 83, 125007 (2011), link
    preprint: arXiv:1103.5942, link
  6. M. F. Maghrebi, S. J. Rahi, T. Emig, N. Graham, R. L. Jaffe, M. Kardar, Analytical results on Casimir forces for conductors with edges and tips, Proc. Natl. Acad. Sci. USA 108, 6867-6871 (2011), link
    preprint: arXiv:1010.3223, link
  7. S. Zaheer, S. J. Rahi, T. Emig, R. L. Jaffe, Casimir potential of a compact object enclosed by a spherical cavity, Phys. Rev. A 82, 052507 (2010), link
    preprint: arXiv:1008.4181, link
  8. S. J. Rahi, M. Kardar, T. Emig, Constraints on stable equilibria with fluctuation-induced (Casimir) forces, Phys. Rev. Lett. 105, 070404 (2010), link
    preprint: arXiv:0911.5364, link
  9. N. Graham, A. Shpunt, T. Emig, S. J. Rahi, R. L. Jaffe, M. Kardar, Casimir Force at a Knife’s Edge, Phys. Rev. D 81, 061701(R) (2010), link
    preprint: arXiv:0910.4649, link
  10. S. J. Rahi, S. Zaheer, Stable Levitation and Alignment of Compact Objects by Casimir Spring Forces, Phys. Rev. Lett. 104, 070405 (2010), link
    preprint: arXiv:0909.4510, link
  11. S. Zaheer, S. J. Rahi, T. Emig, R. L. Jaffe, Casimir interactions of an object inside a spherical metal shell, Phys. Rev. A 81, 030502(R) (2010), link
    preprint: arXiv:0908.3270, link
  12. S. J. Rahi, T. Emig, N. Graham, R. L. Jaffe, M. Kardar, Scattering Theory Approach to Electrodynamic Casimir Forces, Phys. Rev. D 80, 085021 (2009), link
    preprint: arXiv:0908.2649, link
  13. P. Rodriguez-Lopez, S. J. Rahi, T. Emig, Three-body Casimir effects and non-monotonic forces, Phys. Rev. A 80, 022519 (2009), link
    preprint: arXiv:0905.0448, link
  14. S. J. Rahi, M. P. Hertzberg, M. Kardar, Melting of persistent double-stranded polymers, Phys. Rev. E 78, 051910 (2008), link
    preprint: arXiv:0806.2837, link
  15. S. J. Rahi, P. Virnau, L. A. Mirny, M. Kardar, Predicting transcription factor specificity with all-atom models, Nucleic Acids Res. 36, 6209-6217 (2008), link
    preprint: arXiv:0809.4080, link
  16. S. J. Rahi, T. Emig, R. L. Jaffe, M. Kardar, Casimir forces between cylinders and plates, Phys. Rev. A 78, 012104 (2008), link
    preprint: arXiv:0805.4241, link
  17. S. J. Rahi, A. W. Rodriguez, T. Emig, R. L. Jaffe, S. G. Johnson, M. Kardar, Nonmonotonic effects of parallel sidewalls on Casimir forces between cylinders, Phys. Rev. A 77, 030101(R) (2008), link
    preprint: arXiv:0711.1987, link
  18. S. J. Rahi, K. Sharp, Mapping complicated surfaces onto a sphere, Int. J. Comput. Geom. Appl. 17, 305-329 (2007), link
  19. W. Gu, S. J. Rahi, V. Helms, Solvation free energies and transfer free energies for amino acids from hydrophobic solution to water solution from a very simple residue model, J. Phys. Chem. B 108, 5806-5814 (2004), link

Book Chapter

  • S. J. Rahi, T. Emig, R. L. Jaffe, Geometry and material effects in Casimir physics – Scattering theory, in Casimir Physics (Lecture Notes in Physics)
    Eds.: D. Dalvit, P. Milonni, D. Roberts, F. da Rosa (Springer, New York, 2011)
    preprint: arXiv:1007.4355, link