Strong dispersive coupling of a high-finesse cavity to a micromechanical membrane JD Thompson, BM Zwickl, AM Jayich, F Marquardt, SM Girvin, JGE Harris Nature 452 (7183), 72-75, 2008 | 1758 | 2008 |
Strong and tunable nonlinear optomechanical coupling in a low-loss system JC Sankey, C Yang, BM Zwickl, AM Jayich, JGE Harris Nature Physics 6 (9), 707-712, 2010 | 498 | 2010 |
Dispersive optomechanics: a membrane inside a cavity AM Jayich, JC Sankey, BM Zwickl, C Yang, JD Thompson, SM Girvin, ... New Journal of Physics 10 (9), 095008, 2008 | 489 | 2008 |
High quality mechanical and optical properties of commercial silicon nitride membranes BM Zwickl, WE Shanks, AM Jayich, C Yang, AC Bleszynski Jayich, ... Applied Physics Letters 92 (10), 2008 | 282 | 2008 |
Experimental realization of a quantum quincunx by use of linear optical elements B Do, ML Stohler, S Balasubramanian, DS Elliott, C Eash, E Fischbach, ... JOSA B 22 (2), 499-504, 2005 | 166 | 2005 |
The process of transforming an advanced lab course: Goals, curriculum, and assessments BM Zwickl, N Finkelstein, HJ Lewandowski American Journal of Physics 81 (1), 63-70, 2013 | 153 | 2013 |
AAPT recommendations for the undergraduate physics laboratory curriculum J Kozminski, H Lewandowski, N Beverly, S Lindaas, D Deardorff, ... American Association of Physics Teachers 29, 2014 | 137 | 2014 |
Preparing for the quantum revolution: What is the role of higher education? MFJ Fox, BM Zwickl, HJ Lewandowski Physical Review Physics Education Research 16 (2), 020131, 2020 | 125 | 2020 |
Epistemology and expectations survey about experimental physics: Development and initial results BM Zwickl, T Hirokawa, N Finkelstein, HJ Lewandowski Physical Review Special Topics-Physics Education Research 10 (1), 010120, 2014 | 118 | 2014 |
Typical physics Ph. D. admissions criteria limit access to underrepresented groups but fail to predict doctoral completion CW Miller, BM Zwickl, JR Posselt, RT Silvestrini, T Hodapp Science Advances 5 (1), eaat7550, 2019 | 111 | 2019 |
Model-based reasoning in the physics laboratory: Framework and initial results BM Zwickl, D Hu, N Finkelstein, HJ Lewandowski Physical Review Special Topics—Physics Education Research 11 (2), 020113, 2015 | 110 | 2015 |
Achieving a quantum smart workforce CD Aiello, DD Awschalom, H Bernien, T Brower, KR Brown, TA Brun, ... Quantum Science and Technology 6 (3), 030501, 2021 | 86 | 2021 |
Observability of radiation-pressure shot noise in optomechanical systems K Børkje, A Nunnenkamp, BM Zwickl, C Yang, JGE Harris, SM Girvin Physical Review A—Atomic, Molecular, and Optical Physics 82 (1), 013818, 2010 | 57 | 2010 |
Examining problem solving in physics-intensive Ph. D. research AE Leak, SL Rothwell, J Olivera, B Zwickl, J Vosburg, KN Martin Physical Review Physics Education Research 13 (2), 020101, 2017 | 55 | 2017 |
Incorporating learning goals about modeling into an upper-division physics laboratory experiment BM Zwickl, N Finkelstein, HJ Lewandowski American Journal of Physics 82 (9), 876-882, 2014 | 51 | 2014 |
Qualitative investigation of students’ views about experimental physics D Hu, BM Zwickl, BR Wilcox, HJ Lewandowski Physical Review Physics Education Research 13 (2), 020134, 2017 | 44 | 2017 |
Bridging physics and biology teaching through modeling AM Hoskinson, BA Couch, BM Zwickl, KA Hinko, MD Caballero American Journal of Physics 82 (5), 434-441, 2014 | 42 | 2014 |
Examining students’ views about validity of experiments: From introductory to Ph. D. students D Hu, BM Zwickl Physical Review Physics Education Research 14 (1), 010121, 2018 | 41 | 2018 |
Development and validation of the Colorado learning attitudes about science survey for experimental physics BM Zwickl, N Finkelstein, HJ Lewandowski AIP Conference Proceedings 1513 (1), 442-445, 2013 | 40 | 2013 |
Stable, mode-matched, medium-finesse optical cavity incorporating a microcantilever mirror: Optical characterization and laser cooling JGE Harris, BM Zwickl, AM Jayich Review of scientific instruments 78 (1), 2007 | 36 | 2007 |