Holographic acoustic elements for manipulation of levitated objects

[1]  Régis Marchiano,et al.  Observation of a Single-Beam Gradient Force Acoustical Trap for Elastic Particles: Acoustical Tweezers. , 2014, Physical review letters.

[2]  Woontack Woo,et al.  Proceedings of the 33rd Annual ACM Conference on Human Factors in Computing Systems , 2015, CHI.

[3]  Glauber T Silva,et al.  Designing single-beam multitrapping acoustical tweezers. , 2014, Ultrasonics.

[4]  Jun Rekimoto,et al.  Pixie dust: graphics generated by levitated and animated objects in computational acoustic-potential field , 2014, SIGGRAPH '14.

[5]  Xiang Zhang,et al.  Generation of acoustic self-bending and bottle beams by phase engineering , 2014, Nature Communications.

[6]  Sriram Subramanian,et al.  Correspondence: Dexterous ultrasonic levitation of millimeter-sized objects in air , 2014, IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control.

[7]  Zhengyi Yang,et al.  Acoustic tractor beam. , 2014, Physical review letters.

[8]  D. Poulikakos,et al.  Acoustophoretic contactless elevation, orbital transport and spinning of matter in air. , 2014, Physical review letters.

[9]  Dimos Poulikakos,et al.  Acoustophoretic contactless transport and handling of matter in air , 2013, Proceedings of the National Academy of Sciences.

[10]  Régis Marchiano,et al.  Spherical vortex beams of high radial degree for enhanced single-beam tweezers , 2013 .

[11]  Paul D. Wilcox,et al.  Dexterous manipulation of microparticles using Bessel-function acoustic pressure fields , 2013 .

[12]  Qifa Zhou,et al.  Ultrahigh frequency lensless ultrasonic transducers for acoustic tweezers application , 2013, Biotechnology and bioengineering.

[13]  I-Kao Chiang,et al.  On-chip manipulation of single microparticles, cells, and organisms using surface acoustic waves , 2012, Proceedings of the National Academy of Sciences.

[14]  Yongqiang Qiu,et al.  Array-controlled ultrasonic manipulation of particles in planar acoustic resonator , 2012, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[15]  Henrik Bruus,et al.  Acoustofluidics 7: The acoustic radiation force on small particles. , 2012, Lab on a chip.

[16]  C. A. Rey,et al.  Acoustic levitation: recent developments and emerging opportunities in biomaterials research , 2012, European Biophysics Journal.

[17]  W. Xie,et al.  Acoustic levitation with self-adaptive flexible reflectors. , 2011, The Review of scientific instruments.

[18]  Chih-Kuang Yeh,et al.  Potential-well model in acoustic tweezers , 2010, IEEE Transactions on Ultrasonics, Ferroelectrics and Frequency Control.

[19]  I. Ial,et al.  Nature Communications , 2010, Nature Cell Biology.

[20]  Changyang Lee,et al.  Single beam acoustic trapping. , 2009, Applied physics letters.

[21]  Peter G Wolynes,et al.  Protein structure prediction using basin-hopping. , 2008, The Journal of chemical physics.

[22]  Karen Volke-Sepúlveda,et al.  Transfer of angular momentum to matter from acoustical vortices in free space. , 2008, Physical review letters.

[23]  Thomas Laurell,et al.  Chip integrated strategies for acoustic separation and manipulation of cells and particles. , 2007, Chemical Society reviews.

[24]  W. J. Xie,et al.  Acoustic method for levitation of small living animals , 2006 .

[25]  A. Schug,et al.  Basin hopping simulations for all-atom protein folding. , 2006, The Journal of chemical physics.

[26]  S. Goedecker Minima hopping: an efficient search method for the global minimum of the potential energy surface of complex molecular systems. , 2004, The Journal of chemical physics.

[27]  D. Grier A revolution in optical manipulation , 2003, Nature.

[28]  David G Grier,et al.  Structure of optical vortices. , 2003, Physical review letters.

[29]  E. Brandt,et al.  Acoustic physics: Suspended by sound , 2001, Nature.

[30]  M J Padgett,et al.  Generation of a beam with a dark focus surrounded by regions of higher intensity: the optical bottle beam. , 2000, Optics letters.

[31]  Philip L. Marston,et al.  An acoustical helicoidal wave transducer with applications for the alignment of ultrasonic and underwater systems , 1999 .

[32]  J. Doye,et al.  Tetrahedral global minimum for the 98-atom Lennard-Jones cluster. , 1999, Physical review. E, Statistical physics, plasmas, fluids, and related interdisciplinary topics.

[33]  J. Doye,et al.  Global Optimization by Basin-Hopping and the Lowest Energy Structures of Lennard-Jones Clusters Containing up to 110 Atoms , 1997, cond-mat/9803344.

[34]  Jorge Nocedal,et al.  A Numerical Study of the Limited Memory BFGS Method and the Truncated-Newton Method for Large Scale Optimization , 1991, SIAM J. Optim..

[35]  Jorge Nocedal,et al.  On the limited memory BFGS method for large scale optimization , 1989, Math. Program..

[36]  R. R. Whymark,et al.  Acoustic field positioning for containerless processing , 1975 .

[37]  M. Berry,et al.  Dislocations in wave trains , 1974, Proceedings of the Royal Society of London. A. Mathematical and Physical Sciences.