Stretching Behavior of Knotted and Unknotted Flow Fields,” Stefan Faaland, Diego Tapia Silva, and Dustin Kleckner, ArXiv:2306.17393 (2023). [PDF]
High-speed two-color scanning volumetric laser-induced fluorescence,” Diego Tapia Silva, Cole Cooper, Tracy L. Mandel, Shilpa Khatri, and Dustin Kleckner, Research Square Preprint, DOI: https://doi.org/10.21203/rs.3.rs-2977609/v1 (2023). [PDF]
Dynamics of Acoustically Bound Particles,” Nicholas St. Clair, Dominique Davenport, Arnold D. Kim, and Dustin Kleckner, Physical Review Research 5, 013051 (2023). [PDF]
Formation of colloidal chains and driven clusters with optical binding,” Dominique Davenport and Dustin Kleckner, Soft Matter 18, 4464 (2022). [PDF]
Retention of rising oil droplets in density stratification,” Tracy L. Mandel, De Zhen Zhou, Lindsay Waldrop, Maxime Theillard, Dustin Kleckner, and Shilpa Khatri, Physical Review Fluids 5, 124803 (2020). [PDF]
Helicity in superfluids: Existence and the classical limit,” Hridesh Kedia, Dustin Kleckner, Martin W. Scheeler, and William T. M. Irvine, Physical Review Fluids 3, 104702 (2018). [PDF]
Self-organization in dipolar cube fluids constrained by competing anisotropies,” Laura Rossi, Joe G. Donaldson, Janne-Mieke Meijer, Andrei V. Petukhov, Dustin Kleckner, Sofia S. Kantorovich, William T. M. Irvine, Albert P. Philipse and Stefano Sacanna. Soft Matter 14, 1080 (2018). [PDF]
Complete measurement of helicity and its dynamics in vortex tubes,” Martin W. Scheeler, Wim M. van Rees, Hridesh Kedia, Dustin Kleckner, William T. M. Irvine, Science 357, 487 (2017). [PDF]
How superfluid vortex knots untie,” Dustin Kleckner, Louis H. Kauffman, and William T. M. Irvine, Nature Physics 12, 650 (2016). [PDF]
Topological mechanics of gyroscopic metamaterials,” Lisa M. Nash, Dustin Kleckner, Alismari Read, Vincenzo Vitelli, Ari M. Turner, and William T.M. Irvine, Proceedings of the National Academy of Sciences 112, 14495 (2015). [PDF]
Helicity conservation by flow across scales in reconnecting vortex links and knots,” Dustin Kleckner, Martin W. Scheeler, Davide Proment, Gordon L. Kindlmann, and William T. M. Irvine, Proceedings of the National Academy of Sciences 111, 15350 (2014). [PDF]
The Life of a Vortex Knot,” Dustin Kleckner, Martin W. Scheeler, and William T. M. Irvine, Physics of Fluids 26, 091105 (2014). [PDF]

See also: Accompanying video, arXiv:1310.3321 [physics.flu-dyn].
Liquid crystals: Tangled loops and knots (News and Views),” William T. M. Irvine and Dustin Kleckner, Nature Materials 13, 229 (2014).
Creation and dynamics of knotted vortices,” Dustin Kleckner and William T. M. Irvine, Nature Physics 9, 253 (2013). [PDF]

See also:Fluid dynamics: Lord Kelvin's vortex rings,” Daniel P. Lathrop and Barbara Brawn-Cinani, Nature Physics 9, 207 (2013).
Optomechanical trampoline resonators,” Dustin Kleckner, Brian Pepper, Evan Jeffrey, Petro Sonin, Susanna M. Thon, and Dirk Bouwmeester, Optics Express 19, 19708 (2011). [PDF]
Micro-Optomechanical Systems for Quantum Optics,” Dustin Kleckner, UCSB Doctoral Thesis, March 2010. [PDF]
Polychromatic Photonic Quasicrystal Cavities,” Susanna M. Thon, William T. M. Irvine, Dustin Kleckner, and Dirk Bouwmeester, Physical Review Letters 104, 243901 (2010). [PDF]
Diffraction Limited High Finesse Optical Cavities,” Dustin Kleckner, William T. M. Irvine, Sumant S. R. Oemrawsingh, and Dirk Bouwmeester, Physical Review A 81, 043814 (2010). [PDF]
Creating and verifying a quantum superposition in a micro-optomechanical system,” Dustin Kleckner et al., New Journal of Physics 10, 095020 (2008). [PDF]
Sub-kelvin optical cooling of a micromechanical resonator,” Dustin Kleckner and Dirk Bouwmeester, Nature 444, 75 (2006). [PDF]

See also: Nature Podcast, November 2nd, 2006 [MP3, transcript]
High Finesse Opto-Mechanical Cavity with a Movable Thirty-Micron-Size Mirror,” Dustin Kleckner et al., Physical Review Letters 96, 173901 (2006). [PDF]