| Single spin detection by magnetic resonance force microscopy D Rugar, R Budakian, HJ Mamin, BW Chui Nature 430 (6997), 329-332, 2004 | 2278 | 2004 |
| Nanoscale nuclear magnetic resonance with a nitrogen-vacancy spin sensor HJ Mamin, M Kim, MH Sherwood, CT Rettner, K Ohno, DD Awschalom, ... Science 339 (6119), 557-560, 2013 | 984 | 2013 |
| Improved fiber‐optic interferometer for atomic force microscopy D Rugar, HJ Mamin, P Guethner Applied Physics Letters 55 (25), 2588-2590, 1989 | 963 | 1989 |
| Magnetic force microscopy: General principles and application to longitudinal recording media D Rugar, HJ Mamin, P Guethner, SE Lambert, JE Stern, I McFadyen, ... Journal of Applied Physics 68 (3), 1169-1183, 1990 | 889 | 1990 |
| Nanoscale magnetic resonance imaging CL Degen, M Poggio, HJ Mamin, CT Rettner, D Rugar Proceedings of the National Academy of Sciences 106 (5), 1313-1317, 2009 | 725 | 2009 |
| Contact electrification using force microscopy BD Terris, JE Stern, D Rugar, HJ Mamin Physical Review Letters 63 (24), 2669, 1989 | 693 | 1989 |
| Atomic emission from a gold scanning-tunneling-microscope tip HJ Mamin, PH Guethner, D Rugar Physical review letters 65 (19), 2418, 1990 | 686 | 1990 |
| Sub-attonewton force detection at millikelvin temperatures HJ Mamin, D Rugar Applied Physics Letters 79 (20), 3358-3360, 2001 | 616 | 2001 |
| Deposition and imaging of localized charge on insulator surfaces using a force microscope JE Stern, BD Terris, HJ Mamin, D Rugar Applied physics letters 53 (26), 2717-2719, 1988 | 592 | 1988 |
| Near‐field optical data storage using a solid immersion lens BD Terris, HJ Mamin, D Rugar, WR Studenmund, GS Kino Applied Physics Letters 65 (4), 388-390, 1994 | 589 | 1994 |
| Thermomechanical writing with an atomic force microscope tip HJ Mamin, D Rugar Applied Physics Letters 61 (8), 1003-1005, 1992 | 506 | 1992 |
| Feedback cooling of a cantilever’s fundamental mode below 5 mK M Poggio, CL Degen, HJ Mamin, D Rugar Physical Review Letters 99 (1), 017201, 2007 | 503 | 2007 |
| Force microscope using a fiber‐optic displacement sensor D Rugar, HJ Mamin, R Erlandsson, JE Stern, BD Terris Review of Scientific Instruments 59 (11), 2337-2340, 1988 | 423 | 1988 |
| Theory and observation of highly asymmetric atomic structure in scanning-tunneling-microscopy images of graphite D Tománek, SG Louie, HJ Mamin, DW Abraham, RE Thomson, E Ganz, ... Physical Review B 35 (14), 7790, 1987 | 420 | 1987 |
| Noncontact friction and force fluctuations between closely spaced bodies BC Stipe, HJ Mamin, TD Stowe, TW Kenny, D Rugar Physical review letters 87 (9), 096801, 2001 | 388 | 2001 |
| Near‐field optical data storage BD Terris, HJ Mamin, D Rugar Applied Physics Letters 68 (2), 141-143, 1996 | 376 | 1996 |
| Ultrahigh-density atomic force microscopy data storage with erase capability G Binnig, M Despont, U Drechsler, W Haeberle, M Lutwyche, P Vettiger, ... Applied Physics Letters 74 (9), 1329-1331, 1999 | 372 | 1999 |
| Contamination-mediated deformation of graphite by the scanning tunneling microscope HJ Mamin, E Ganz, DW Abraham, RE Thomson, J Clarke Physical Review B 34 (12), 9015, 1986 | 340 | 1986 |
| Nuclear magnetic resonance imaging with 90-nm resolution HJ Mamin, M Poggio, CL Degen, D Rugar Nature nanotechnology 2 (5), 301-306, 2007 | 309 | 2007 |
| Gold deposition from a scanning tunneling microscope tip HJ Mamin, S Chiang, H Birk, PH Guethner, D Rugar Journal of Vacuum Science & Technology B: Microelectronics and Nanometer …, 1991 | 276 | 1991 |
