Atomic Physic Division

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Quantum Processes and Metrology Staff

Joshua M. Pomeroy

Publications

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  1. "The 3C/3D Line Ratio in Ni xix: new ab initio theory and experimental results," G.X. Chen, K. Kirby, E. Silver, N.S. Brickhouse, J.D. Gillaspy, J.N. Tan, J.M. Pomeroy, and J.M. Laming, Phys. Rev. Lett. 97, 143201 (2006).

  2. "STM and transport measurments of highly charged ions modified materials,” J.M. Pomeroy, H. Grube, A.C. Perrella, and J.D. Gillaspy, Nucl. Instrum. Meth. Phys. Res. B, (accepted for publication, 2006).

  3. "Accurate modeling of benchmark x-ray spectra from highly charged ions of tungsten," Y. Ralchenko, J.N. Tan, J.D. Gillaspy, J.M. Pomeroy, and E. Silver, Phys. Rev. A 74, 042514 (2006).

  4. "Potential Energy Sputtering of EUVL Materials," J.M. Pomeroy, L.P. Ratliff, J.D. Gillaspy, and S. Bajt, Chapter 38 in EUV Sources for Lithography, ed. by V. Bakshi (SPIE Press, 2006), p. 1033-1044.

  5. "Transport and STM measurements of HCI modified materials," J.M. Pomeroy, H. Grube, A.C. Perrella, C.E. Sosolik, and J.D. Gillaspy, Nucl. Instrum. and Meth. Phys. Res. B, (accepted for publication, 2006).

  6. "The Potential of Highly Charged Ions: Possible Future Applications," J.D. Gillaspy, J.M. Pomeroy, A.C. Perrella, and H. Grube, J. Phys. Conf. Ser. (accepted for publication, 2006).

  7. "Critical nucleus phase diagram for the Cu(100)surface," J.M. Pomeroy and Joel D. Brock, Phys. Rev. B 73, 245405 (2006).

  8. "EUV Spectroscopy of Xenon Ions Created Using an Electron Beam Ion Trap," K. Fahy, E. Sokell, G. O'Sullivan, A. Cummings, A. Aguilar, J.D. Gillaspy, J.M. Pomeroy, and J.N. Tan, in Opto-Ireland 2005: Optical Sensing and Spectroscopy, Proc. SPIE 5826, ed. by H.J. Byrne, et al. (SPIE, Bellingham, WA, 2005) p. 351-362.

  9. "An Electron Beam Ion Trap (EBIT) plus a microcalorimeter: a good combination for laboratory astrophysics," J.N. Tan, E. Silver, J. Pomeroy, J.M. Laming, and J. Gillaspy, Phys. Scr. T119, 30 (2005).

  10. "Low jitter metal vapor vacuum arc ion source for electron beam ion trap injections," G.E. Holland, C.N. Boyer, J.F. Seely, J.N. Tan, J.M. Pomeroy, and J.D. Gillaspy, Rev. Sci. Instrum. 76, 073304 (2005).

  11. "A high efficiency ultrahigh vacuum compatible flat field spectrometer for extreme ultraviolet wavelengths," B. Blagojevic, E.O. Le Bigot, K. Fahy, A. Aguilar, K. Makonyi, E. Takacs, J.N. Tan, J.M. Pomeroy, J.H. Burnett, J.D. Gillaspy, and J.R. Roberts, Rev. Sci. Instrum. 76, 083102 (2005).

  12. "UTA versus line emissions for EUVL: Studies on xenon emission at the NIST EBIT," K. Fahy, P. Dunne, L. McKinney, G. O'Sullivan, E. Sokell, J. White, A. Aguilar, J.M. Pomeroy, J.N. Tan, B. Blagojevic, E.-O. LeBigot, and J.D. Gillaspy, J. Phys. D: Appl. Phys. 37, 3225-3232 (2004).

  13. “STM studies of island nucleation during hyperthermal atom deposition,” J.M. Pomeroy and J.D. Brock, Mater. Res. Symp. Proc. 749, W16.6 (2003).

  14. “Hyperthermal ion deposition system for STM studies of surface morphology,” J.M. Pomeroy, A.J. Couture, M.V.R. Murty, E.N. Butler, B.H. Cooper, and J.D. Brock, Rev. Sci. Intrum. 73, 3846 (2002).

  15. “KMC/MD investigations of hyperthermal copper homoepitaxy,” J.M. Pomeroy, J.J. Jacobsen, C.C. Hill, B.H. Cooper, J.P. Sethna, and J.D. Brock, Phys. Rev. B 66, 235412 (2002).

  16. "Ion-induced pattern formation on Co surfaces: an x-ray scattering and kinetic monte carlo study," O. Malis, J.D. Brock, R.L. Headrick, M.-S. Yi, and J.M. Pomeroy, Phys. Rev. B 66, 035408 (2002).

  17. “STM analysis of copper thin films using hyperthermal copper ions,” J.M. Pomeroy, B.H. Cooper, and J.D. Brock, Mater. Res. Symp. Proc. 696 (2002).

  18. “STM investigation of energetic insertion during direct ion deposition,” J.M. Pomeroy, A. Couture, J. Jacobsen, B.H. Cooper, J.P. Sethna, and J.D. Brock, Mater. Res. Symp. Proc. 672 (2001).

  19. “STM characterization of Cu thin films grown by direct ion deposition,” J.M. Pomeroy, A. Couture, J. Jacobsen, C.C. Hill, J.P. Sethna, B.H. Cooper, and J.D. Brock, Mater. Res. Symp. Proc. 648 (2001).

  20. “Time-resolved x-ray scattering study of Co surface evolution during low-energy ion irradiation,” O. Malis, J.M. Pomeroy, R.L. Headrick, and J.D. Brock, Mater. Res. Symp. Proc. 647 (2001).

  21. “Roughening of Au(111) surface during ion beam erosion: a scanning tunneling microscope and x-ray diffraction study,” A. Judy, M.V. Ramana Murty, E. Butler, J. Pomeroy, B.H. Cooper, A.R. Woll, J.D. Brock, S. Kycia, R.L. Headrick, Mater. Res. Symp. Proc. 570 (1999).

  22. “Spatio-spectral mapping of multimode vertical cavity surface emitting lasers,” K.J. Knopp, D.H. Christensen, G. Vander Rhodes, J.M. Pomeroy, B.B. Goldberg, M.S. Ünlü, J. Lightwave Tech., 17, 1429 (1999).

  23. “Spectral mapping of multimode vertical-cavity surface-emitting lasers by near-field scanning optical microscopy,” K.J. Knopp, D.H. Christensen, G.V. Rhodes, J.M. Pomeroy, B.B. Goldberg, and M.S. Ünlü, Proc. SPIE - Int. Soc. Opt. Eng. (USA) Proc. SPIE - The International Society for Optical Engineering (1999).

  24. “Internal spatial modes of one-dimensional photonic bandgap devices images with near-field scanning optical microscopy,” G.H. Vander Rhodes, M.S. Ünlü, B.B. Goldberg, J.M. Pomeroy, T.F. Krauss, Technical Digest. Summaries of Papers Presented at the Int'l Quantum Electronics Conf., 1998 Technical Digest Series 7 (1998).

  25. “Characterization of waveguide micro-cavities using high-resolution transmission spectroscopy and near-field scanning optical microscopy,” G.H. Vander Rhodes, M.S. Ünlü, B.B. Goldberg, J.M. Pomeroy and T.F. Krauss, IEEE Proc.-OptoElectronics (Dec. 1998).

  26. “Pump intensity profiling of vertical-cavity surface-emitting lasers using near-field scanning optical microscopy,” G.H. Vander Rhodes, J.M. Pomeroy, M.S. Ünlü, B.B. Goldberg, K.J. Knopp, and D.H. Christensen, Appl. Phys. Lett. 13 (April 1998).

  27. “Imaging of spatial modes of one dimensional photonic band gap devices using near-field scanning optical microscopy,” G.H. Vander Rhodes, J.M. Pomeroy, T.F. Krauss, M.S. Ünlü, and B.B. Goldberg, ISDRS'97, Charlottesville, VA, December 1997.

  28. “Direct measurement of pump intensity distributions in an optically pumped vertical-cavity surface-emitting laser,” G.H. Vander Rhodes, J.M. Pomeroy, G. Ulu, M.S. Ünlü, B.B. Goldberg, Conference Proc. LEOS 97, 10th Annual Meeting, IEEE Lasers and Electro-Optics Society (1996).

Quantum Processes and Metrology Group   |   Atomic Physics Division   |   Division Technical Highlights

Online: October 2006