Grier, David - Department of Physics, New York University

• Structure and Scaling of Helical Modes of Light Steven Sundbeck and Ilya Gruzberg
• Manipulation and assembly of nanowires with holographic optical traps Ritesh Agarwal, 1 Kosta Ladavac, 2 Yael Roichman, 2 Guiha Yu, 1 , Charles M. Lieber, 1,3 and David G. Grier 2
• Prismatic optical fractionation Ke Xiao and David G. Grier
• Colloidal transport through optical tweezer arrays Yael Roichman, 1 Victor Wong, 2 and David G. Grier 1
• Brownian vortexes Bo Sun, 1 Jiayi Lin, 2 Ellis Darby, 2 Alexander Y. Grosberg, 1 and David G. Grier 1
• Holographic microscopy of holographically trapped threedimensional structures SangHyuk Lee and David G. Grier
• Threedimensional holographic ring traps Yohai Roichman and David G. Grier
• Rheologica Acta manuscript No. (will be inserted by the editor)
• Robustness of Holographic Optical Traps Against Phase Scaling Errors SangHyuk Lee and David G. Grier
• Flux Reversal in a Twostate Symmetric Optical Thermal Ratchet SangHyuk Lee and David G. Grier
• Autocalibrated colloidal interaction measurements with extended optical traps Marco Polin, Yohai Roichman, and David G. Grier
• Determining Pair Interactions from Structural Correlations Muhittin Mungan, ChorngHaur Sow, Susan N. Coppersmith, and David G. Grier
• Anomalous vibrational dispersion in holographically trapped colloidal arrays Marco Polin and David G. Grier
• Sorting Mesoscopic Objects with Periodic Potential Landscapes: Optical Fractionation Kosta Ladavac, Karen Kasza, and David G. Grier #
• Multidimensional optical fractionation with holographic verification Ke Xiao and David G. Grier
• Holographic assembly of quasicrystalline photonic heterostructures Yael Roichman and David G. Grier
• Statistically Locked-in Transport Through Periodic Potential Landscapes Ajay Gopinathan
• Technical note: Characterizing individual milk fat globules with holographic video microscopy
• Theory of holographic optical trapping Bo Sun, Yohai Roichman, and David G. Grier
• Extended and knotted optical traps in three dimensions
• Anomalous vibrational dispersion in holographically trapped colloidal arrays Marco Polin and David G. Grier
• Strategies for threedimensional particle tracking with holographic video
• Technical note: Characterizing individual milk fat globules with holographic video microscopy
• Transport and Fractionation in Periodic PotentialEnergy Landscapes Matthew Pelton and Kosta Ladavac
• Holographic deconvolution microscopy for high-resolution particle tracking
• Computer-Generated Holographic Optical Tweezer Arrays Eric R. Dufresne(1)
• Robustness of Holographic Optical Traps Against Phase Scaling Errors Sang-Hyuk Lee and David G. Grier
• Nanofabrication with Holographic Optical Tweezers Pamela Korda(1)
• Modulated optical vortices Jennifer E. Curtis 1 and David G. Grier
• Twodimensional optical thermal ratchets based on Fibonacci spirals Ke Xiao, 1 Yael Roichman, 2 and David G. Grier 1
• Rheologica Acta manuscript No. (will be inserted by the editor)
• Holographic optical trapping David G. Grier
• When Like Charges Attract: The E ects of Geometrical Con nement on Long-Range Colloidal Interactions
• When Like Charges Attract: The Effects of Geometrical Confinement on Long-Range Colloidal Interactions
• David G. Grier Publications
• Holographic particle-streak velocimetry Lisa Dixon, Fook Chiong Cheong and David G. Grier
• Strategies for three-dimensional particle tracking with holographic video
• Rotational and translational diffusion of copper oxide nanorods measured with
• Flow visualization and flow cytometry with holographic video microscopy Fook Chiong Cheong, Bo Sun, Remi Dreyfus, Jesse Amato-Grill, Ke Xiao, Lisa Dixon & David G. Grier
• Brownian vortexes Jiayi Lin,2
• Influence of non-conservative optical forces on the dynamics of optically trapped colloidal spheres: The fountain of probability
• Characterizing and tracking single colloidal particles with video holographic Sang-Hyuk Lee,1
• Three-dimensional holographic ring traps Yohai Roichman and David G. Grier
• Projecting Extended Optical Traps with Shape-Phase Holography Yohai Roichman and David G. Grier
• Performance of optical traps with geometric aberrations Yael Roichman, Alex Waldron, Emily Gardel, and David G. Grier
• Manipulation and assembly of nanowires with holographic optical traps Ritesh Agarwal,1
• One-dimensional optical thermal ratchets Sang-Hyuk Lee and David G. Grier
• Structure and Scaling of Helical Modes of Light Steven Sundbeck and Ilya Gruzberg
• Characterizing Quantum-Dot Blinking Using Noise Power Spectra Matthew Pelton
• Processing Carbon Nanotubes with Holographic Optical Tweezers
• A Revolution in Optical Manipulation David G. Grier
• EPJ manuscript No. (will be inserted by the editor)
• Modulated optical vortices Jennifer E. Curtis 1
• Dynamic Holographic Optical Tweezers Jennifer E. Curtis, Brian A. Koss, and David G. Grier
• INTERACTIONS IN COLLOIDAL SUSPENSIONS Electrostatics, Hydrodynamics and their Interplay
• Colloids: A Surprisingly Attractive Couple David G. Grier
• Auto-calibrated colloidal interaction measurements with extended optical traps Marco Polin, Yohai Roichman, and David G. Grier
• Colloidal electroconvection in a thin horizontal cell: II. Bulk electroconvection of water during parallelplate electrolysis
• Europhysics Letters PREPRINT Colloidal hydrodynamic coupling in concentric optical vor
• Optimized holographic optical traps Marco Polin, Kosta Ladavac, # SangHyuk Lee, Yael Roichman, and David G. Grier
• Structure of Optical Vortices Jennifer E. Curtis and David G. Grier
• Holographic deconvolution microscopy for highresolution particle tracking
• Hierarchical Colloidal Vortex Rings in a Constant Electric Field Yilong Han and David G. Grier
• Volumetric imaging of holographic optical traps Yohai Roichman, Ilias Cholis, and David G. Grier
• Flow visualization and flow cytometry with holographic video microscopy Fook Chiong Cheong, Bo Sun, Remi Dreyfus, Jesse AmatoGrill, Ke Xiao, Lisa Dixon & David G. Grier
• Anomalous interactions in confined charge-stabilized D G Grier and Y Han
• Holographic microscopy of holographically trapped three-dimensional structures Sang-Hyuk Lee and David G. Grier
• Colloidal transport through optical tweezer arrays Yael Roichman,1
• Holographic optical trapping David G. Grier
• Transport and Fractionation in Periodic Potential-Energy Landscapes Matthew Pelton and Kosta Ladavac
• Europhysics Letters PREPRINT Weak long-ranged Casimir attraction in colloidal crystals
• Colloidal Electrostatic Interactions Near a Conducting Surface Marco Polin, 1 David G. Grier, 1 and Yilong Han 2
• Holographic particlestreak velocimetry Lisa Dixon, Fook Chiong Cheong and David G. Grier
• Kinetically Locked-in Colloidal Transport in an Array of Optical Tweezers Pamela T. Korda, Michael B. Taylor, and David G. Grier
• Anomalous Collective Dynamics in Optically Driven Colloidal Rings Yael Roichman and David G. Grier
• Holographic assembly of quasicrystalline photonic heterostructures Yael Roichman and David G. Grier
• Sorting colloidal particles into multiple channels with optical forces: Prismatic optical fractionation
• Sorting Mesoscopic Objects with Periodic Potential Landscapes: Optical Fractionation Kosta Ladavac, Karen Kasza, and David G. Grier
• Optical Peristalsis Brian A. Koss and David G. Grier
• Methods of Digital Video Microscopy for Colloidal Studies John C. Crocker and David G. Grier
• Projecting Extended Optical Traps with ShapePhase Holography Yohai Roichman and David G. Grier
• The Charge of Glass and Silica Surfaces Sven H. Behrens and David G. Grier
• Hydrodynamic Coupling of Two Brownian Spheres to a Planar Surface Eric R. Dufresne (1) , Todd M. Squires (2) , Michael P. Brenner (3) , and David G. Grier (1)
• Processing Carbon Nanotubes with Holographic Optical Tweezers
• The Pair Interaction of Charged Colloidal Spheres near a Charged Wall Sven H. Behrens and David G. Grier
• Annealing Thin Colloidal Crystals with Optical Gradient Forces Pamela T. Korda and David G. Grier
• Optical solenoid beams SangHyuk Lee, 1 Yohai Roichman, 2 and David G. Grier 2
• Characterizing QuantumDot Blinking Using Noise Power Spectra Matthew Pelton # , David G. Grier, and Philippe GuyotSionnest
• On the Origin of Stratification in Creaming Emulsions Daniel M. Mueth, John C. Crocker, Sergei E. Esipov, and David G. Grier
• Optical forces arising from phase gradients Yohai Roichman, 1 Bo Sun, 2 Yael Roichman, 1 Jesse AmatoGrill, 1 and David G. Grier 1
• Microoptomechanical pumps assembled and driven by holographic optical vortex Kosta Ladavac
• Colloidal electroconvection in a thin horizontal cell: II. Bulk electroconvection of water during parallel-plate electrolysis
• Influence of nonconservative optical forces on the dynamics of optically trapped colloidal spheres: The fountain of probability
• Optical Tweezers in Colloid and Interface Science David G. Grier
• Stability of Densely Branched Growth in Dissipative Diffusion Controlled Systems Juan K. Lin and David G. Grier
• Volumetric imaging of holographic optical traps Yohai Roichman, Ilias Cholis, and David G. Grier
• Microscopic Measurement of the Pair Interaction Potential of ChargeStabilized John C. Crocker and David G. Grier
• Statistically Locked-in Transport Through Periodic Potential Landscapes Ajay Gopinathan and David G. Grier y
• Dynamic Holographic Optical Tweezers Jennifer E. Curtis, Brian A. Koss, and David G. Grier
• Onedimensional optical thermal ratchets SangHyuk Lee and David G. Grier
• Extended and knotted optical traps in three dimensions
• Colloidal electroconvection in a thin horizontal cell: I. microscopic cooperative patterns at low voltage
• Kinetically Locked-in Colloidal Transport in an Array of Optical Tweezers Pamela T. Korda, Michael B. Taylor,
• Flux Reversal in a Two-state Symmetric Optical Thermal Ratchet Sang-Hyuk Lee and David G. Grier
• Anomalous interactions in confined chargestabilized D G Grier+ and Y Han#
• Structure of Optical Vortices Jennifer E. Curtis and David G. Grier
• Brownian Dynamics of a Sphere Between Parallel Walls Eric R. Dufresne, David Altman, and David G. Grier
• Anomalous Collective Dynamics in Optically Driven Colloidal Rings Yael Roichman and David G. Grier
• A Minimal Model for Brownian Vortexes Bo Sun, David G. Grier, and Alexander Y. Grosberg
• Evolution of a Colloidal Critical State in an Optical Pinning Potential Landscape Pamela T. Korda, 1 Gabriel C. Spalding, 2 and David G. Grier 1
• Giant Colloidal Diffusivity on Corrugated Optical Vortices Sang-Hyuk Lee and David G. Grier
• Computer-Generated Holographic Optical Tweezer Arrays Eric R. Dufresne (1) , Gabriel C. Spalding (2) , Matthew T. Dearing (2) , Steven A. Sheets (2) , and David G. Grier (1)
• Sorting colloidal particles into multiple channels with optical forces: Prismatic optical fractionation
• Two-dimensional optical thermal ratchets based on Fibonacci spirals Yael Roichman,2
• Performance of optical traps with geometric aberrations Yael Roichman, Alex Waldron, Emily Gardel, and David G. Grier
• Rotational and translational diffusion of copper oxide nanorods measured with
• Erratum: \Interactions, Dynamics, and Elasticity in Charge-Stabilized Colloidal Crystals" [J. Chem. Phys. 109, 8659 (1998)]
• Optical Tweezer Arrays and Optical Substrates Created with Diffractive Optics Eric R. Dufresne and David G. Grier
• Optical forces arising from phase gradients Yohai Roichman,1
• Interactions, Dynamics and Elasticity in ChargeStabilized Colloidal Crystals Jessica A. Weiss (1) , Amy E. Larsen (2) , and David G. Grier (3)
• Con nement-Induced Colloidal Attractions in Equilibrium Yilong Han and David G. Grier
• When Like Charges Attract: Interactions and Dynamics in Charge-Stabilized Colloidal
• Characterizing and tracking single colloidal particles with video holographic SangHyuk Lee, 1 Yohai Roichman, 1 GiRa Yi, 2 ShinHyun Kim, 3 SeungMan
• Observation of Flux Reversal in a Symmetric Optical Thermal Ratchet SangHyuk Lee, Kosta Ladavac, # Marco Polin, and David G. Grier
• Giant Colloidal Di#usivity on Corrugated Optical Vortices SangHyuk Lee and David G. Grier
• Colloidal electroconvection in a thin horizontal cell: I. microscopic cooperative patterns at low voltage
• Optimized holographic optical traps Marco Polin, Kosta Ladavac,
• Optical solenoid beams Sang-Hyuk Lee,1 Yohai Roichman,2 and David G. Grier2
• A Revolution in Optical Manipulation David G. Grier
• Nanofabrication with Holographic Optical Tweezers Pamela Korda (1) , Gabriel C. Spalding (2) , Eric R. Dufresne (1) and David G. Grier (1)
• Measurement of the Vortex Pair Interaction Potential in a TypeII Superconductor ChorngHaur Sow 1 , Ken Harada 2 , Akira Tonomura 2 , George Crabtree 3 , and David G. Grier 1
• Interactions and Dynamics in ChargeStabilized Colloid John C. Crocker
• INTERACTIONS IN COLLOIDAL SUSPENSIONS Electrostatics, Hydrodynamics and their Interplay
• Multidimensional optical fractionation with holographic verification Ke Xiao and David G. Grier
• Colloidal Electrostatic Interactions Near a Conducting Surface Marco Polin,1
• Observation of Flux Reversal in a Symmetric Optical Thermal Ratchet Sang-Hyuk Lee, Kosta Ladavac,
• Prismatic optical fractionation Ke Xiao and David G. Grier
• Microoptomechanical pumps assembled and driven by holographic optical vortex Kosta Ladavac
• Europhysics Letters PREPRINT Colloidal hydrodynamic coupling in concentric optical vor-
• Evolution of a Colloidal Critical State in an Optical Pinning Potential Landscape Pamela T. Korda,1
• Confinement-Induced Colloidal Attractions in Equilibrium Yilong Han and David G. Grier
• EPJ manuscript No. (will be inserted by the editor)
• Hierarchical Colloidal Vortex Rings in a Constant Electric Field Yilong Han and David G. Grier
• LikeCharge Attractions in Metastable Colloidal Crystallites
• Optical Peristalsis Brian A. Koss and David G. Grier
• Theory of holographic optical trapping Bo Sun, Yohai Roichman, and David G. Grier
• Holographic characterization of individual colloidal spheres' porosities Fook Chiong Cheong, Ke Xiao, David J. Pine, and David G. Grier
• Holographic characterization of individual colloidal spheres' porosities Fook Chiong Cheong, Ke Xiao, David J. Pine, and David G. Grier
• Holographic deconvolution microscopy for highresolution particle tracking
• Holographic deconvolution microscopy for high-resolution particle tracking
• Holographic characterization of individual colloidal spheres' porosities Fook Chiong Cheong, Ke Xiao, David J. Pine, and David G. Grier
• Threedimensional holographic ring traps Yohai Roichman and David G. Grier
• Optimized holographic optical traps Marco Polin, Kosta Ladavac, # SangHyuk Lee, Yael Roichman, and David G. Grier
• Influence of nonconservative optical forces on the dynamics of optically trapped colloidal spheres: The fountain of probability
• Strategies for threedimensional particle tracking with holographic video
• Manipulation and assembly of nanowires with holographic optical traps Ritesh Agarwal, 1 Kosta Ladavac, 2 Yael Roichman, 2 Guiha Yu, 1 , Charles M. Lieber, 1,3 and David G. Grier 2
• Optical forces arising from phase gradients Yohai Roichman, 1 Bo Sun, 2 Yael Roichman, 1 Jesse AmatoGrill, 1 and David G. Grier 1
• Brownian vortexes Bo Sun, 1 Jiayi Lin, 2 Ellis Darby, 2 Alexander Y. Grosberg, 1 and David G. Grier 1
• Technical note: Characterizing individual milk fat globules with holographic video microscopy
• Rheologica Acta manuscript No. (will be inserted by the editor)
• A Revolution in Optical Manipulation David G. Grier
• Holographic optical trapping David G. Grier and Yael Roichman
• Flux Reversal in a Twostate Symmetric Optical Thermal Ratchet SangHyuk Lee and David G. Grier
• Characterizing QuantumDot Blinking Using Noise Power Spectra Matthew Pelton # , David G. Grier, and Philippe GuyotSionnest
• Colloidal Electrostatic Interactions Near a Conducting Surface Marco Polin, 1 David G. Grier, 1 and Yilong Han 2
• Statistically Lockedin Transport Through Periodic Potential Landscapes Ajay Gopinathan # and David G. Grier +
• Optical forces and torques in nonuniform beams of light David B. Ru#ner and David G. Grier
• Extended and knotted optical traps in three dimensions
• Colloidal electroconvection in a thin horizontal cell: II. Bulk electroconvection of water during parallelplate electrolysis
• Volumetric imaging of holographic optical traps Yohai Roichman, Ilias Cholis, and David G. Grier
• Projecting Extended Optical Traps with ShapePhase Holography Yohai Roichman and David G. Grier
• Robustness of Holographic Optical Traps Against Phase Scaling Errors SangHyuk Lee and David G. Grier
• Processing carbon nanotubes with holographic optical tweezers
• Characterizing and tracking single colloidal particles with video holographic SangHyuk Lee, 1 Yohai Roichman, 1 GiRa Yi, 2 ShinHyun Kim, 3 SeungMan
• Sorting Mesoscopic Objects with Periodic Potential Landscapes: Optical Fractionation Kosta Ladavac, Karen Kasza, and David G. Grier #
• Autocalibrated colloidal interaction measurements with extended optical traps Marco Polin, # Yohai Roichman, and David G. Grier +
• Sorting colloidal particles into multiple channels with optical forces: Prismatic optical fractionation
• Anomalous vibrational dispersion in holographically trapped colloidal arrays Marco Polin and David G. Grier
• Giant Colloidal Di#usivity on Corrugated Optical Vortices SangHyuk Lee and David G. Grier
• Theory of holographic optical trapping Bo Sun, Yohai Roichman, and David G. Grier
• Transport and Fractionation in Periodic PotentialEnergy Landscapes Matthew Pelton and Kosta Ladavac
• A Minimal Model for Brownian Vortexes Bo Sun, David G. Grier, and Alexander Y. Grosberg
• Optical solenoid beams SangHyuk Lee, 1 Yohai Roichman, 2 and David G. Grier 2
• Anomalous Collective Dynamics in Optically Driven Colloidal Rings Yael Roichman and David G. Grier
• Holographic deconvolution microscopy for highresolution particle tracking
• Rotational and translational diffusion of copper oxide nanorods measured with
• Performance of optical traps with geometric aberrations Yael Roichman, Alex Waldron, Emily Gardel, and David G. Grier
• Colloidal hydrodynamic coupling in concentric op tical vortices
• Colloidal electroconvection in a thin horizontal cell: I. microscopic cooperative patterns at low voltage
• Holographic particlestreak velocimetry Lisa Dixon, Fook Chiong Cheong and David G. Grier
• Observation of Flux Reversal in a Symmetric Optical Thermal Ratchet SangHyuk Lee, Kosta Ladavac, # Marco Polin, and David G. Grier
• Holographic microscopy of holographically trapped threedimensional structures SangHyuk Lee and David G. Grier
• Multidimensional optical fractionation with holographic verification Ke Xiao and David G. Grier
• Flow visualization and flow cytometry with holographic video microscopy Fook Chiong Cheong, Bo Sun, Remi Dreyfus, Jesse AmatoGrill, Ke Xiao, Lisa Dixon & David G. Grier
• Anomalous interactions in confined chargestabilized D G Grier+ and Y Han#
• Microoptomechanical pumps assembled and driven by holographic optical vortex Kosta Ladavac
• Twodimensional optical thermal ratchets based on Fibonacci spirals Ke Xiao, 1 Yael Roichman, 2 and David G. Grier 1
• Onedimensional optical thermal ratchets SangHyuk Lee and David G. Grier
• Holographic assembly of quasicrystalline photonic heterostructures Yael Roichman and David G. Grier
• Colloidal transport through optical tweezer arrays Yael Roichman, 1 Victor Wong, 2 and David G. Grier 1
• Holographic microscopy of holographically trapped three-dimensional structures Sang-Hyuk Lee and David G. Grier
• Influence of non-conservative optical forces on the dynamics of optically trapped colloidal spheres: The fountain of probability
• Projecting Extended Optical Traps with Shape-Phase Holography Yohai Roichman and David G. Grier
• Brownian vortexes Jiayi Lin,2
• A Revolution in Optical Manipulation David G. Grier
• Characterizing Quantum-Dot Blinking Using Noise Power Spectra Matthew Pelton
• Rheologica Acta manuscript No. (will be inserted by the editor)
• Three-dimensional holographic ring traps Yohai Roichman and David G. Grier
• Robustness of Holographic Optical Traps Against Phase Scaling Errors Sang-Hyuk Lee and David G. Grier
• Colloidal Electrostatic Interactions Near a Conducting Surface Marco Polin,1
• Holographic assembly of quasicrystalline photonic heterostructures Yael Roichman and David G. Grier
• Colloidal electroconvection in a thin horizontal cell: I. microscopic cooperative patterns at low voltage
• A Minimal Model for Brownian Vortexes Bo Sun, David G. Grier, and Alexander Y. Grosberg
• Anomalous vibrational dispersion in holographically trapped colloidal arrays Marco Polin and David G. Grier
• Characterizing and tracking single colloidal particles with video holographic Sang-Hyuk Lee,1
• Holographic particle-streak velocimetry Lisa Dixon, Fook Chiong Cheong and David G. Grier
• Flux Reversal in a Two-state Symmetric Optical Thermal Ratchet Sang-Hyuk Lee and David G. Grier
• Auto-calibrated colloidal interaction measurements with extended optical traps Marco Polin,
• Optical solenoid beams Sang-Hyuk Lee,1 Yohai Roichman,2 and David G. Grier2
• Holographic deconvolution microscopy for high-resolution particle tracking
• Anomalous interactions in confined charge-stabilized D G Grier and Y Han
• Transport and Fractionation in Periodic Potential-Energy Landscapes Matthew Pelton and Kosta Ladavac
• Observation of Flux Reversal in a Symmetric Optical Thermal Ratchet Sang-Hyuk Lee, Kosta Ladavac,
• Extended and knotted optical traps in three dimensions
• Technical note: Characterizing individual milk fat globules with holographic video microscopy
• Optical forces arising from phase gradients Yohai Roichman,1
• Processing carbon nanotubes with holographic optical tweezers
• Manipulation and assembly of nanowires with holographic optical traps Ritesh Agarwal,1
• Flow visualization and flow cytometry with holographic video microscopy Fook Chiong Cheong, Bo Sun, Remi Dreyfus, Jesse Amato-Grill, Ke Xiao, Lisa Dixon & David G. Grier
• Two-dimensional optical thermal ratchets based on Fibonacci spirals Yael Roichman,2
• Colloidal electroconvection in a thin horizontal cell: II. Bulk electroconvection of water during parallel-plate electrolysis
• Holographic characterization of individual colloidal spheres' porosities Fook Chiong Cheong, Ke Xiao, David J. Pine, and David G. Grier
• Rotational and translational diffusion of copper oxide nanorods measured with
• Optical forces and torques in non-uniform beams of light David B. Ruffner and David G. Grier
• Colloidal hydrodynamic coupling in concentric op-tical vortices
• Statistically Locked-in Transport Through Periodic Potential Landscapes Ajay Gopinathan
• Microoptomechanical pumps assembled and driven by holographic optical vortex Kosta Ladavac
• Volumetric imaging of holographic optical traps Yohai Roichman, Ilias Cholis, and David G. Grier
• Giant Colloidal Diffusivity on Corrugated Optical Vortices Sang-Hyuk Lee and David G. Grier
• Strategies for three-dimensional particle tracking with holographic video
• Sorting Mesoscopic Objects with Periodic Potential Landscapes: Optical Fractionation Kosta Ladavac, Karen Kasza, and David G. Grier
• One-dimensional optical thermal ratchets Sang-Hyuk Lee and David G. Grier
• Optimized holographic optical traps Marco Polin, Kosta Ladavac,
• Anomalous Collective Dynamics in Optically Driven Colloidal Rings Yael Roichman and David G. Grier
• Theory of holographic optical trapping Bo Sun, Yohai Roichman, and David G. Grier
• Structure and Scaling of Helical Modes of Light Steven Sundbeck and Ilya Gruzberg
• Colloidal transport through optical tweezer arrays Yael Roichman,1
• Sorting colloidal particles into multiple channels with optical forces: Prismatic optical fractionation
• Holographic optical trapping David G. Grier and Yael Roichman
• Multidimensional optical fractionation with holographic verification Ke Xiao and David G. Grier
• Performance of optical traps with geometric aberrations Yael Roichman, Alex Waldron, Emily Gardel, and David G. Grier