| [1] | Mary Bridget Kustusch, D. Roundy, Tevian Dray, and Corinne Manogue. Partial derivative games in thermodynamics: A cognitive task analysis. submitted to Physical Review Special Topics - Physics Education Research, 2013. [ .pdf ] |
| [2] | Eric J. Krebs, Jeff B. Schulte, and D. Roundy. Improved association in a classical density functional theory for water. submitted to J. Chem. Phys., 2013. [ arXiv | .pdf ] |
| [3] | D. L. Jackson and D. Roundy. A modified histogram method for disordered lattices. submitted to Comp. Phys. Comm., 2013. [ arXiv ] |
| [4] | Grant Sherer, Mary Bridget Kustusch, Corinne A. Manogue, and David Roundy. The partial derivative machine. In AIP Conference Proceedings-American Institute of Physics, 2013. in press. [ .pdf ] |
| [5] | Corinne A. Manogue, Ayush Gupta, Joseph F. Wagner, Tevian Dray, Mary Bridget Kustusch, Emily van Zee, and David Roundy. From fear to fun in thermodynamics. In AIP Conference Proceedings-American Institute of Physics, 2013. in press. [ .pdf ] |
| [6] | D. Roundy, Mary Bridget Kustusch, and Corinne A. Manogue. Name the experiment! American Journal of Physics, 2013. in press. |
| [7] | Jessica Hughes, Eric J Krebs, David Roundy, et al. A classical density-functional theory for describing water interfaces. The Journal of chemical physics, 138(2):024509-024509, 2013. [ .pdf ] |
| [8] | D. Roundy and M. Rogers. Exploring the thermodynamics of a rubber band. American Journal of Physics, 81:20, 2013. [ .pdf ] |
| [9] | Mary Bridget Kustusch, David Roundy, Tevian Dray, and Corinne Manogue. An expert path through a thermo maze. In AIP Conference Proceedings, volume 1513, page 234, 2013. [ .pdf ] |
| [10] | L. Prisbrey, D. Roundy, K. Blank, L.S. Fifield, and E.D. Minot. Electrical characteristics of carbon nanotube devices prepared with single oxidative point defects. The Journal of Physical Chemistry C, 2012. [ .pdf ] |
| [11] | J.R. Thompson, C.A. Manogue, D.J. Roundy, D.B. Mountcastle, N.S. Rebello, P.V. Engelhardt, and C. Singh. Representations of partial derivatives in thermodynamics. In AIP Conference Proceedings-American Institute of Physics, volume 1413, page 85, 2012. |
| [12] | Jeff B. Schulte, Patrick A. Kreitzberg, Chris V. Haglund, and David Roundy. Using fundamental measure theory to treat the correlation function of the inhomogeneous hard-sphere fluid. Phys. Rev. E, 86:061201, 2012. [ DOI | .pdf ] |
| [13] | Ardavan F. Oskooi, David Roundy, Mihai Ibanescu, Peter Bermel, J.D. Joannopoulos, and Steven G. Johnson. Meep: A flexible free-software package for electromagnetic simulations by the fdtd method. Computer Physics Communications, 181(3):687 - 702, 2010. [ DOI ] |
| [14] | Daniel A. Freedman, D. Roundy, and T. A. Arias. Elastic effects of vacancies in strontium titanate: Short- and long-range strain fields, elastic dipole tensors, and chemical strain. Phys. Rev. B, 80(6):064108, 2009. [ DOI ] |
| [15] | S. A. Petrosyan, Jean-Francois Briere, David Roundy, and T. A. Arias. Joint density-functional theory for electronic structure of solvated systems. Phys. Rev. B, 75(20):205105, 2007. [ http ] |
| [16] | A. Farjadpour, D. Roundy, Alejandro Rodriguez, M. Ibanescu, Peter Bermel, J. D. Joannopoulos, Steven G. Johnson, and G. W. Burr. Improving accuracy by subpixel smoothing in the finite-difference time domain. Optics Letters, 31(20):2972-2974, 2006. [ DOI ] |
| [17] | Seung-Hoon Jhi, D. Roundy, S. G. Louie, and M. L. Cohen. Formation and electronic properties of double-walled boron nitride nanotubes. Solid State Commun., 134:397-402, 2005. |
| [18] | H. Üstünel, D. Roundy, and T. A. Arias. Modelling a suspended nanotube oscillator. Nano Letters, 5(3):523-526, 2005. |
| [19] | H. Üstünel, D. Roundy, and T. A. Arias. Ab initio mechanical response: internal friction and structure of divacancies in silicon. Phys. Rev. Lett., 94:025503, 2005. |
| [20] | M. Ibanescu, S. G. Johnson, D. Roundy, Y. Fink, and J. D. Joannopoulos. Microcavity confinement based on an anomalous zero group-velocity waveguide mode. Optics Letters, 30(5):552-554, 2005. |
| [21] | D. Roundy. Darcs: distributed version management in haskell. In Proceedings of the 2005 ACM SIGPLAN workshop on Haskell, pages 1-4. ACM, 2005. |
| [22] | H. J. Choi, D. Roundy, H. Sun, M. L. Cohen, and S. G. Louie. Reply to “comment on `first-principles calculation of the superconducting transition in mgb2 within the anisotropic eliashberg formalism' ”. Phys. Rev. B, 69(5):056502, 2004. |
| [23] | V. Sazonova, Y. Yaish, H. Üstünel, D. Roundy, P. L. McEuen, and T. A. Arias. A tunable carbon nanotube electromechanical oscillator. Nature, 431:284-287, 2004. |
| [24] | D. Roundy, E. Lidoriki, and J. D. Joannopoulos. Polarization-selective waveguide bends in a photonic crystal with layered square symmetry. J. Appl. Phys., 96(12):7750-7752, 2004. |
| [25] | Hong Sun, F. J. Ribeiro, Je-Luen Li, D. Roundy, M. L. Cohen, and S. G. Louie. Ab initio pseudopotential studies of equilibrium lattice structures and phonon modes of bulk bc3. Phys. Rev. B, 69:024110, 2004. |
| [26] | R. E. Kraig, D. Roundy, and M. L. Cohen. A study of the mechanical and structural properties of polonium. Solid State Commun., 129(6):411-413, 2004. |
| [27] | M. Ibanescu, S. G. Johnson, D. Roundy, C. Luo, Y. Fink, and J. D. Joannopoulos. Anomalous dispersion relations by symmetry breaking in axially uniform waveguides. Phys. Rev. Lett., 92(6):063903, 2004. |
| [28] | D. Roundy and John Joannopoulos. Photonic crystal structure with square symmetry within each layer and a three-dimensional band gap. App. Phys. Lett., 82(22):3835, 2003. |
| [29] | H. J. Choi, D. Roundy, H. Sun, M. L. Cohen, and S. G. Louie. The origin of the anomalous superconducting properties of mgb2. Nature, 418:758-760, August 2002. |
| [30] | W. Luo, D. Roundy, M. L. Cohen, and J. W. Morris, Jr. Ideal strength of bcc molybdenum and niobium. Phys. Rev. B, 66:094110, 2002. |
| [31] | F. J Ribeiro, D. Roundy, and M. L. Cohen. Electronic properties of mose nanowires. Phys. Rev. B, 65:153401, 2002. |
| [32] | H. J. Choi, D. Roundy, H. Sun, M. L. Cohen, and S. G. Louie. First-principles calculation of the superconducting transition in mgb2 within the anisotropic eliashberg formalism. Phys. Rev. B, 66:020513, 2002. |
| [33] | C. R. Krenn, D. Roundy, M. L. Cohen, D. C. Chrzan, and J. W. Morris, Jr. Connecting atomistic and experimental estimates of ideal strength. Phys. Rev. B, 65:134111, 2002. |
| [34] | D. Roundy and M. L. Cohen. Ideal strength of diamond, si and ge. Phys. Rev. B, 64:212103, 2001. |
| [35] | M. A. Khakoo, D. Roundy, C. Hicks, N. Margolis, E. Yeung, A. W. Ross, and T. J. Gay. Monte carlo studies of mott scattering asymmetries from gold foils. Phys. Rev. A, 64(5):052713, 2001. |
| [36] | H. Sun, S. H. Jhi, D. Roundy, M. L. Cohen, and S. G. Louie. Structural forms of cubic bc2n. Phys. Rev. B, 64(9):094108, 2001. |
| [37] | J. W. Morris, Jr., C. R. Krenn, D. Roundy, and M L Cohen. Deformation at the limit of elastic stability. Mat. Sci. Eng. A, 309:121-124, 2001. |
| [38] | C. R. Krenn, D. Roundy, J. W. Morris, Jr., and M. L. Cohen. The ideal strengths of bcc metals. Mat. Sci. Eng. A, 319:111-114, 2001. |
| [39] | C. R. Krenn, D. Roundy, J. W. Morris, Jr., and M. L. Cohen. The nonlinear elastic behavior and ideal shear strength of al and cu. Mat. Sci. Eng. A, 317:44-48, 2001. |
| [40] | D. Roundy, C. R. Krenn, M. L. Cohen, and J. W. Morris, Jr. The ideal strength of tungsten. Phil. Mag. A, 81(7):1725, 2001. |
| [41] | F. Rugamas, D. Roundy, G. Mikaelian, G. Vitug, M. Rudner, J. Shih, D. Smith, J. Segura, and M. A. Khakoo. Angular profiles of molecular beams from effusive tube sources: I. experiment. Measurement Science and Technology, 11(12):1750-1765, 2000. |
| [42] | J. W. Morris, Jr., C. R. Krenn, D. Roundy, and M L Cohen. Elastic stability and the limits of strength. In P. E. Turchi and A. Gonis, editors, Phase Transformations and Evolution in Materials, page 187, Warrendale, Pa, 2000. TMS. |
| [43] | D. Roundy, C. R. Krenn, M. L. Cohen, and J. W. Morris, Jr. Ideal shear strengths of aluminum and copper. Phys. Rev. Lett., 82(13):2713, 1999. |
| [44] | M. A. Khakoo, D. Roundy, and F. Rugamas. Electron-impact excitation of the 11s->31p and 11s->431p transition in helium. Phys. Rev. A, 54(5):4004-4014, 1996. |
| [45] | M. A. Khakoo, D. Roundy, and F. Rugamas. Electron-impact excitation of the 11s->31p transition in helium. Phys. Rev. Lett., 75(1):41-44, 1995. |
This file was generated by bibtex2html 1.97.