Electron vortex beams with high quanta of orbital angular momentum BJ McMorran, A Agrawal, IM Anderson, AA Herzing, HJ Lezec, ... Science 331 (6014), 192-195, 2011 | 687 | 2011 |
Laser-focused atomic deposition JJ McClelland, RE Scholten, EC Palm, RJ Celotta Science 262 (5135), 877-880, 1993 | 649 | 1993 |
Replica molding using polymeric materials: A practical step toward nanomanufacturing Y Xia, JJ McClelland, R Gupta, D Qin, XM Zhao, LL Sohn, RJ Celotta, ... Advanced Materials 9 (2), 147-149, 1997 | 448 | 1997 |
Microlithography by using neutral metastable atoms and self-assembled monolayers KK Berggren, A Bard, JL Wilbur, JD Gillaspy, AG Helg, JJ McClelland, ... Science 269 (5228), 1255-1257, 1995 | 357 | 1995 |
Laser cooling without repumping: a magneto-optical trap for erbium atoms JJ McClelland, JL Hanssen Physical review letters 96 (14), 143005, 2006 | 227 | 2006 |
Roadmap on emerging hardware and technology for machine learning K Berggren, Q Xia, KK Likharev, DB Strukov, H Jiang, T Mikolajick, ... Nanotechnology 32 (1), 012002, 2020 | 198 | 2020 |
Roadmap on emerging hardware and technology for machine learning Q Xia, KK Berggren, K Likharev, DB Strukov, H Jiang, T Mikolajick, ... Nanotechnology, 2020 | 198 | 2020 |
Nanofabrication of a two‐dimensional array using laser‐focused atomic deposition R Gupta, JJ McClelland, ZJ Jabbour, RJ Celotta Applied physics letters 67 (10), 1378-1380, 1995 | 186 | 1995 |
Atom-optical properties of a standing-wave light field JJ McClelland JOSA B 12 (10), 1761-1768, 1995 | 157 | 1995 |
Minimizing feature width in atom optically fabricated chromium nanostructures WR Anderson, CC Bradley, JJ McClelland, RJ Celotta Physical Review A 59 (3), 2476, 1999 | 147 | 1999 |
Laser focusing of atoms: a particle optics approach JJ McClelland, MR Scheinfein J. Opt. Soc. Am. B 8 (9), 1974, 1991 | 129* | 1991 |
Superelastic scattering of spin-polarized electrons from sodium JJ McClelland, MH Kelley, RJ Celotta Physical Review A 40 (5), 2321, 1989 | 111 | 1989 |
Raman-induced avoided crossings in adiabatic optical potentials: observation of λ/8 spatial frequency in the distribution of atoms R Gupta, JJ McClelland, P Marte, RJ Celotta Physical review letters 76 (25), 4689, 1996 | 109 | 1996 |
Detailed look at aspects of optical pumping in sodium JJ McClelland, MH Kelley Physical Review A 31 (6), 3704, 1985 | 96 | 1985 |
Cold atomic beam ion source for focused ion beam applications B Knuffman, AV Steele, JJ McClelland Journal of Applied Physics 114 (4), 2013 | 92 | 2013 |
Magneto-Optic Trapping of Chromium Atoms CC Bradley, WR Anderson, JJ McClelland, RJ Celotta APS Division of Atomic, Molecular and Optical Physics Meeting Abstracts, 1998 | 91 | 1998 |
Fast, bias-free algorithm for tracking single particles with variable size and shape AJ Berglund, MD McMahon, JJ McClelland, JA Liddle Optics express 16 (18), 14064-14075, 2008 | 89 | 2008 |
Accuracy of nanoscale pitch standards fabricated by laser-focused atomic deposition JJ McClelland, WR Anderson, CC Bradley, M Walkiewicz, RJ Celotta, ... Journal of Research-National Institute of Standards and Technology 108 (2 …, 2003 | 86 | 2003 |
Laser collimation of a chromium beam RE Scholten, R Gupta, JJ McClelland, RJ Celotta, MS Levenson, ... Physical Review A 55 (2), 1331, 1997 | 86 | 1997 |
Bright focused ion beam sources based on laser-cooled atoms JJ McClelland, AV Steele, B Knuffman, KA Twedt, A Schwarzkopf, ... Applied physics reviews 3 (1), 2016 | 84 | 2016 |