Stabilization of an optical microscope to 0.1 nm in three dimensions AR Carter, GM King, TA Ulrich, W Halsey, D Alchenberger, TT Perkins Applied Optics 46 (3), 421-427, 2007 | 181 | 2007 |
Sensorimotor structure of Drosophila larva phototaxis EA Kane, M Gershow, B Afonso, I Larderet, M Klein, AR Carter, ... Proceedings of the National Academy of Sciences 110 (40), E3868-E3877, 2013 | 125 | 2013 |
Ultrastable atomic force microscopy: atomic-scale stability and registration in ambient conditions GM King, AR Carter, AB Churnside, LS Eberle, TT Perkins Nano letters 9 (4), 1451-1456, 2009 | 101 | 2009 |
Precision surface-coupled optical-trapping assay with one-basepair resolution AR Carter, Y Seol, TT Perkins Biophysical journal 96 (7), 2926-2934, 2009 | 81 | 2009 |
Back-scattered detection provides atomic-scale localization precision, stability, and registration in 3D AR Carter, GM King, TT Perkins Optics express 15 (20), 13434-13445, 2007 | 68 | 2007 |
Improving the quantification of Brownian motion MA Catipovic, PM Tyler, JG Trapani, AR Carter American Journal of Physics 81 (7), 485-491, 2013 | 58 | 2013 |
Intensity‐dependent timing and precision of startle response latency in larval zebrafish EL Troconis, AJ Ordoobadi, TF Sommers, R Aziz‐Bose, AR Carter, ... The Journal of Physiology 595 (1), 265-282, 2017 | 29 | 2017 |
Sequence-dependent nanometer-scale conformational dynamics of individual RecBCD–DNA complexes AR Carter, MH Seaberg, HF Fan, G Sun, CJ Wilds, HW Li, TT Perkins Nucleic acids research 44 (12), 5849-5860, 2016 | 23 | 2016 |
Protamine loops DNA in multiple steps OA Ukogu, AD Smith, LM Devenica, H Bediako, RB McMillan, Y Ma, ... Nucleic Acids Research 48 (11), 6108-6119, 2020 | 22 | 2020 |
Real-time, active picometer-scale alignment, stabilization, and registration in one or more dimensions TT Perkins, GM King, AR Carter US Patent 7,928,409, 2011 | 21 | 2011 |
Laser guided tip approach with 3D registration to a surface TT Perkins, GM King, AR Carter US Patent 8,387,158, 2013 | 19 | 2013 |
Back-scattered detection yields viable signals in many conditions FB Shipley, AR Carter Optics express 20 (9), 9581-9590, 2012 | 14 | 2012 |
Biophysical measurements of cells, microtubules, and DNA with an atomic force microscope LM Devenica, C Contee, R Cabrejo, M Kurek, EF Deveney, AR Carter American Journal of Physics 84 (4), 301-310, 2016 | 12 | 2016 |
Improved performance of an ultrastable measurement platform using a field-programmable gate array for real-time deterministic control AB Churnside, GM King, AR Carter, TT Perkins Instrumentation, Metrology, and Standards for Nanomanufacturing II 7042, 39-45, 2008 | 9 | 2008 |
DNA looping by protamine follows a nonuniform spatial distribution RB McMillan, VD Kuntz, LM Devenica, H Bediako, AR Carter Biophysical journal 120 (12), 2521-2531, 2021 | 8 | 2021 |
Optical methods for measuring DNA folding AD Smith, OA Ukogu, LM Devenica, ED White, AR Carter Modern Physics Letters B 31 (07), 1730001, 2017 | 8 | 2017 |
Optimizing Tethered Particle Motion to Measure DNA Compaction by Protamine M Woop, RD Schwab, JH Lee, AR Carter Biophysical Journal 108 (2), 393a, 2015 | 7 | 2015 |
A surface-coupled optical trap with 1-bp precision via active stabilization SR Okoniewski, AR Carter, TT Perkins Optical Tweezers: Methods and Protocols, 77-107, 2017 | 6 | 2017 |
One hundred years later, introductory labs are poised for change AR Carter The Physics Teacher 59 (2), 97-99, 2021 | 5 | 2021 |
Evolution of the significant figure rules AR Carter The Physics Teacher 51 (6), 340-343, 2013 | 5 | 2013 |