**David C. Roberts
Feynman Fellow
Los Alamos National Laboratory
**

**Publications**

Journal Articles

Book Contributions

- Casimir Physics
*Diego Dalvit, Peter Milonni, David Roberts and Felipe da Rosa, eds. (Springer Verlag, Berlin) 2011.*

**Peer-reviewed Journal Articles**

- Using Expression and Genotype to Predict Drug Response in Yeast.
*Douglas M. Ruderfer, David C. Roberts, Ethan O. Perlstein, Stuart L. Schreiber and Leonid Kruglyak. PLoS ONE 4(9): e6907 (2009).* - Drag force on an impurity below the superfluid critical velocity in a quasi-one-dimensional Bose-Einstein condensate.
*Andrew G. Sykes, Matthew J. Davis, David C. Roberts. Phys. Rev. Lett 103, 085302 (2009).*[arXiv] - Mapping the evolution of scientific ideas.
*Mark Herrera, David C. Roberts, Natali Gulbahce. PLoS ONE 5(5): e10355 (2009).*[arXiv] - Induced interaction and crystallization of self-localized impurity fields in a Bose-Einstein condensate.
*Sergio Rica and David C. Roberts. Phys. Rev. A 80, 013609 (2009).*[arXiv]

- Selected for publication in Virtual Journal of Atomic Quantum Fluids Vol. 1 Issue 2 (2009) - When superfluids are a drag.
*David C. Roberts. Contemp. Phys. 50, 453-461 (2009).*[paper] - Impurity crystal in a Bose-Einstein condensate.
*David C. Roberts and Sergio Rica. Phys. Rev. Lett. 102, 025301 (2009).*[arXiv] - A linear path toward synchronization: Anomalous scaling in a new class of exactly solvable Kuramoto models.
*David C. Roberts and Razvan Teodorescu. Eur. Phys. J. S. T. 165, 103-109 (2008).*[arXiv] - On the hydrodynamic boundary condition for superfluid flow.
*Yves Pomeau and David C. Roberts Phys. Rev. B 77, 144508 (2008).*[arXiv] - A linear reformulation of the Kuramoto model of self-synchronizing coupled oscillators.
*David C. Roberts Phys. Rev. E 77, 031114 (2008).*[arXiv]

- Selected for publication in Virtual Journal of Biological Physics Research Vol. 15, Issue 6 (2008) - Genetic basis of individual differences in the response to small molecule drugs.
*Ethan O. Perlstein, Douglas M. Ruderfer, David C. Roberts, Stuart L. Schreiber and Leonid Kruglyak. Nature Genetics, 39, 496 (2007).* - Finite-time collapse of N classical fields described by coupled nonlinear Schrodinger equations.
*David C. Roberts and Alan C. Newell. Phys. Rev. E. 74, 047602 (2006).*[arXiv] - Force on a moving point impurity due to quantum fluctuations in a Bose-Einstein condensate.
*David C. Roberts Phys. Rev. A. 74, 013613 (2006).*[arXiv] - Stability analysis for n-component Bose-Einstein condensate.
*David C. Roberts and Masahito Ueda. Phys. Rev. A. 73, 053611 (2006).*[arXiv] - Probing temperature and damping rates in Bose-Einstein condensates through dephasing in electromagnetically induced transparency conditions.
*David C. Roberts. Phys. Rev. A. 72, 065602 (2005).*[arXiv] - Casimir-like force arising from quantum fluctuations in a slow-moving dilute Bose-Einstein condensate.
*David C. Roberts and Yves Pomeau. Phys. Rev. Lett. 95, 145303 (2005).*[arXiv] - Probing states in the Mott insulator regime in the case of coherent bosons trapped in an optical lattice.
*David C. Roberts and Keith Burnett. Phys. Rev. Lett. 90, 150401 (2003).*[arXiv] - Limitations of light delay and storage times in EIT experiments with condensates.
*David C. Roberts, Thomas Gasenzer and Keith Burnett. Phys. Rev. A. 66, 023801 (2002).*[arXiv] - Exciting relative number squeezed particles from condensates using stimulated light scattering.
*David C. Roberts, Thomas Gasenzer and Keith Burnett. J. Phys. B. 35, L113 (2002).*[arXiv] - Limitations of entanglement between photons and atoms coupled out from a Bose-Einstein condensate.
*Thomas Gasenzer, David C. Roberts and Keith Burnett. Phys. Rev. A. 65, 021605 (R) (2002).*[arXiv] - A solution to the graceful exit problem in pre-big bang cosmology.
*George F.R. Ellis, David C. Roberts, Deon Solomons and Peter Dunsby. Phys. Rev. D, 62 (8), 084004 (2000).*[arXiv] - The metagalactic ionizing radiation at low redshift.
*J. Michael Shull, David C. Roberts, Mark Giroux and Steven Penton. Astron. Journal, 118, 1450 (1999).*[arXiv] - Catastrophic resurfacing and episodic subduction of Venus.
*Donald L. Turcotte, Gleb Morein, David C. Roberts and Bruce Malamud. Icarus, 139, 49 (1999).* - Fractality and self-organized criticality of wars.
*David C. Roberts and Donald L. Turcotte. Fractals, 6, n. 4, 351-357 (1998).*[paper]

**Peer-reviewed Book Contributions**

- A linear path towards self-synchronization: Analysis of the fully locked transition of the Kuramoto model.
*David C. Roberts and Razvan Teodorescu.*__Proceedings of the First International Workshop on Nonlinear Dynamics and Synchronization INDS'08.__*Kyandoghere Kyamakya, ed. (Shaker Verlag, Germany), 2008, pp. 184-187.* - Casimir Friction I: Friction of the vacuum on a spinning dielectric.
*Yves Pomeau. and David C. Roberts*__Modern Encyclopedia of Mathematical Physics (MEMPhys).__*Irina Aref'eva and Daniel Sternheimer, eds. (Springer Verlag, Germany).*[arXiv] - Casimir Friction II: Casimir effect and drag in zero temperature superfluids.
*David C. Roberts and Yves Pomeau.*__Modern Encyclopedia of Mathematical Physics (MEMPhys).__*Irina Aref'eva and Daniel Sternheimer, eds. (Springer Verlag, Germany).*[arXiv] - Earthquakes: friction or a plastic instability?
*David C. Roberts and Donald L. Turcotte.*__Geocomplexity and the physics of earthquakes.__*J.B. Rundle, D.L. Turcotte, and W. Klein., eds. (American Geophysical Union, Washington, DC), 2000, pp. 97-103.*