Regan Research Group

UCLA Department of Physics and Astronomy

Publications

24) E. R. White, S. B. Singer, V. Augustyn, W. A. Hubbard, M. Mecklenburg, B. Dunn, and B. C. Regan, In Situ Transmission Electron Microscopy of Lead Dendrites and Lead Ions in Aqueous Solution. ACS Nano (2012).

23) M. C. Scott, C.C. Chen, M. Mecklenburg, C. Zhu, R. Xu, P. Ercius, U. Dahmen, B. C. Regan, J. Miao, Electron tomography at 2.4-Angström resolution. Nature 483, 444 (2012).

22) E. R. White, M. Mecklenburg, B. Shevitski, S. B. Singer, and B. C. Regan, Charged nanoparticle dynamics in water induced by scanning transmission electron microscopy. Langmuir 28, 3695 (2012).

21) S. B. Singer, M. Mecklenburg, E. R. White, and B. C. Regan, Single-color pyrometry of individual incandescent multiwalled carbon nanotubes. Physical Review B 84, 195468 (2011).

20) M. Mecklenburg, B. Shevitski, S. B. Singer, B. C. Regan, Challenges for electron tomography of nanoscale electrical devices: geometry and beam damage, Microscopy and Microanalysis 17, 1548 (2011).

19) C. Ngo, H. Zhou, M. Mecklenburg, M. Pozuelo, B. C. Regan, Q. F. Xiao, V. B. Shenoy, R. F. Hicks, and S. Kodambaka, Effect of precursor flux on compositional evolution in InP1-xSbx nanowires grown via selfcatalyzed vapor-liquid-solid process. Journal of Crystal Growth 336, 14 (2011).

18) H. I. Rasool, E. B. Song, M. Mecklenburg, B. C. Regan, K. L. Wang, B. H. Weiller, J. K. Gimzewski, Atomic-scale characterization of graphene grown on copper (100) single crystals. Journal of the American Chemical Society 133, 12536 (2011).

17) S. B. Singer, Matthew Mecklenburg, E. R. White, and B. C. Regan, Polarized light emission from individual incandescent carbon nanotubes. Physical Review B 83, 233404 (2011).

16) Edward R. White, Matthew Mecklenburg, Scott B. Singer, Shaul Aloni, and Brian Christopher Regan, Imaging Nanobubbles in Water with Scanning Transmission Electron Microscopy. Applied Physics Express 4 (2011) 055201.

15) M. Mecklenburg, B. C. Regan, Spin and the Honeycomb Lattice: Lessons from Graphene. Physical Review Letters 106, 116803 (2011).

14) M. Mecklenburg, J. Woo, B. C. Regan, Tree-level electron-photon interactions in graphene. Physical Review B 81, 245401 (2010).

13) Y. Fan, S.B. Singer, R. Bergstrom, B. C. Regan, Probing Planck's law with incandescent light emission from a single carbon nanotube. Physical Review Letters 102, 187402 (2009).

12) X. Huang, W. Mickelson, B. C. Regan, S. Kim, A. Zettl, Pressure dependence of Tc and Hc2 of a dirty two-gap superconductor, carbondoped MgB2. Solid State Communications 140, 163-166 (2006).

11) T. D. Yuzvinsky, W. Mickelson, S. Aloni, S. L. Konsek, A. M. Fennimore, G. E. Begtrup, A. Kis, B. C. Regan, A. Zettl, Imaging the life story of nanotube devices. Applied Physics Letters 87 083103 (2005).

10) B. C. Regan, S. Aloni, K. Jensen, R. O. Ritchie & A. Zettl, Nanocrystalpowered nanomotor. Nano Letters 5 1730-1733 (2005).

9) X. Huang, W. Mickelson, B. C. Regan & A. Zettl, Enhancement of the upper critical field of MgB2 by carbon-doping. Solid State Communications 136, 278-282 (2005).

8) B. C. Regan, S. Aloni, K. Jensen & A. Zettl, Surface-tension-driven nanoelectromechanical relaxation oscillator. Applied Physics Letters 86 123119 (2005).

7) A. M. Fennimore, T. D Yuzvinsky, B. C. Regan & A. Zettl, Electrically driven vaporization of multiwall carbon nanotubes for rotary bearing creation. 28th International Winter School / Euroconference on Electronic Properties of Novel Materials, 587-590 (2004).

6) B. C. Regan, S. Aloni, R. O. Ritchie, U. Dahmen & A. Zettl, Carbon nanotubes as nanoscale mass conveyors. Nature 428, 924-927 (2004).

5) B. C. Regan, et al. Nanowicks: nanotubes as tracks for mass transfer. 27th International Winter School / Euroconference on Electronic Properties of Novel Materials, 612-15 (2003).

4) C. W. Chang, B. C. Regan, W. Mickelson, R. O. Ritchie & A. Zettl, Probing structural phase transitions of crystalline C60 via resistivity measurements of metal film overlayers. Solid State Communications 128, 359-363 (2003).

3) B. C. Regan, E. D. Commins, C. J. Schmidt & D. DeMille, New limit on the electron electric dipole moment. Physical Review Letters 88, 071805 (2002).

2) B. C. Regan, A search for violation of time-reversal symmetry in atomic thallium, University of California, Berkeley, 150 pages (2001).

1) E. D. Commins, S. B. Ross, D. DeMille & B. C. Regan, Improved experimental limit on the electric-dipole moment of the electron. Physical Review A 50, 2960-2977 (1994).

Nanotubes!

The scale of devices made from multi-walled nanotubes.