Assembly of quasicrystalline photonic heterostructures

Details Assembly of quasicrystalline photonic heterostructures Assembly of quasicrystalline photonic heterostructures

2011-07-19

2011-07-19

Garber, Charles (Department: 2812)

Semiconductor device manufacturing: process

Formation of semiconductive active region on any substrate

On insulating substrate or layer

C438S006000, C438S007000, C438S032000, C438S069000, C257SE21530

Reexamination Certificate

active

07981774

ABSTRACT:
A method and system for assembling a quasicrystalline heterostructure. A plurality of particles is provided with desirable predetermined character. The particles are suspended in a medium, and holographic optical traps are used to position the particles in a way to achieve an arrangement which provides a desired property.

REFERENCES:
patent: 5245466 (1993-09-01), Burns et al.
patent: 5689109 (1997-11-01), Schutze
patent: 6017403 (2000-01-01), Masumoto et al.
patent: 6055106 (2000-04-01), Grier et al.
patent: 2001/0001967 (2001-05-01), Kita et al.
patent: 2002/0108859 (2002-08-01), Wang et al.
patent: WO 02/056431 (2002-07-01), None
E. R. Dufresne and D. G. Grier. “Optical tweezer arrays and optical substrates created with diffractive optics.”Rev. Sci. Instr.69, 1974-1977 (1998).
D. G. Grier and E. R. Dufresne. “Apparatus for applying optical gradient forces.” U. S. Patent 6,055,106, The University of Chicago (2000).
E. R. Dufresne, G. C. Spalding, M. T. Dearing, S. A. Sheets and D. G. Grier. “Computer-generated holographic optical tweezer arrays.”Rev. Sci. Instr.72, 1810-1816 (2001).
J. E. Curtis, B. A. Koss and D. G. Grier. “Dynamic holographic optical tweezers.”Opt. Comm.207, 169-175 (2002).
D. G. Grier. “A revolution in optical manipulation.”Nature424, 810-816 (2003).
M. Polin, K. Ladavac, S.-H. Lee, Y. Roichman and D. G. Grier. “Optimized holographic optical traps.”Opt. Express13, 5831-5845 (2005).
K. Svoboda and S. M. Block. “Biological applications of optical forces.”Annu. Rev. Biophys. Biomol. Struct.23, 247-285 (1994).
D. G. Grier. “Optical tweezers in colloid and interface science.”Cur. Opin. Colloid Interface Sci.2, 264-270 (1997).
A. Ashkin. “Optical trapping and manipulation of neutral particles using lasers.”Proc. Nat. Acad. Sci.94, 4853-4860 (1997).
A. Ashkin. “History of optical trapping and manipulation of small-neutral particle, atoms, and molecules.”IEEE J. Sel. Top. Quantum Elec.6, 841-856 (2000).
J. E. Curtis and D. G. Grier. “Structure of optical vortices.”Phys. Rev. Lett.90, 133901 (2003).
J. E. Curtis and D. G. Grier. “Modulated optical vortices.”Opt. Lett.28, 872-874 (2003).
S. Sundbeck, I. Gruzberg and D. G. Grier. “Structure and scaling of helical modes of light.”Opt. Lett.30, 477-479 (2005).
Y. Roichman, A. S. Waldron, E. Gardel and D. G. Grier. “Optical traps with geometric aberrations.”Appl. Opt.45, 3425-3429 (2005).
S.-H. Lee and D. G. Grier. “Robustness of holographic optical traps against phase scaling errors.”Opt. Express13, 7458-7465 (2005).
D. G. Grier and Y. Roichman. “Holographic optical trapping.”Appl. Opt.45, 880-887 (2006).
Y. Roichman and D. G. Grier. “Projecting extended optical traps with shape-phase holography.”Opt. Lett.31, 1675-1677 (2006).
P. T. Korda, G. C. Spalding and D. G. Grier. “Evolution of a colloidal critical state in an optical pinning potential.”Phys. Rev. B66, 024504 (2002).
P. T. Korda, M. B. Taylor and D. G. Grier. “Kinetically locked-in colloidal transport in an array of optical tweezers.”Phys. Rev. Lett.89, 128301 (2002).
B. A. Koss and D. G. Grier. “Optical peristalsis.”Appl. Phys. Lett.82, 3985-3987 (2003).
K. Ladavac, K. Kasza and D. G. Grier. “Sorting mesoscopic objects with periodic potential landscapes: Optical fractionation.”Phys. Rev. E70, 010901(R) (2004).
A. Gopinathan and D. G. Grier. “Statistically locked-in transport through periodic potential landscapes.”Phys. Rev. Lett.92, 130602 (2004).
M. Pelton, K. Ladavac and D. G. Grier. “Transport and fractionation in periodic potential-energy landscapes.”Phys. Rev. E70, 031108 (2004).
S.-H. Lee, K. Ladavac, M. Polin and D. G. Grier. “Observation of flux reversal in a symmetric optical thermal ratchet.”Phys. Rev. Lett.94, 110601 (2005).
S.-H. Lee and D. G. Grier. “Flux reversal in a two-state symmetric optical thermal ratchet.”Phys. Rev. E71, 060102(R) (2005).
S.-H. Lee and D. G. Grier. “One-dimensional optical thermal ratchets.”J Phys.: Condens. Matt.17, S3685-S3695 (2005).
S.-H. Lee and D. G. Grier. “Giant colloidal diffusivity on corrugated optical vortices.”Phys. Rev. Lett.96, 190601 (2006).
M. Polin, D. G. Grier and S. R. Quake. “Anomalous vibrational dispersion in holographically trapped colloidal arrays.”Phys. Rev. Lett.96, 088101 (2006).
M. W. Berns. “Laser scissors and tweezers.”Sci. Am.278, 62-67 (1998).
P. T. Korda, G. C. Spalding, E. R. Dufresne and D. G. Grier. “Nanofabrication with holographic optical tweezers.”Rev. Sci. Instr.73, 1956-1957 (2002).
K. Ladavac and D. G. Grier. “Microoptomechanical pump assembled and driven by holographic optical vortex arrays.”Opt. Express12, 1144-1149 (2004).
J. Plewa, E. Tanner, D. M. Mueth and D. G. Grier. “Processing carbon nanotubes with holographic optical tweezers.”Opt. Express12, 1978-1981 (2004).
K. Ladavac and D. G. Grier. “Colloidal hydrodynamic coupling in concentric optical vortices.”Europhys. Lett.70, 548-554 (2005).
Y. Roichman and D. G. Grier. “Holographic assembly of quasicrystalline photonic heterostructures.”Opt. Express13, 5434-5439 (2005).
M. Polin, D. G. Grier and Y. Han. “Colloidal electrostatic interactions near a conducting surface.”Phys. Rev. Lett.submitted for publication (2006).
Y. Han and D. G. Grier. “Colloidal electroconvection in a thin horizontal cell: II. Bulk electroconvection of water during parallel-plate electrolysis.”J. Chem. Phys.accepted for publication (2006).
Y. Han and D. G. Grier. “Colloidal electroconvection in a thin horizontal cell I. Microscopic cooperative patterns at low voltage.”J. Chem. Phys.122, 164701 (2005).
Y. Han and D. G. Grier. “Configurational temperatures and interactions in charge-stabilized colloid.”J. Chem. Phys.122, 064907 (2005).
D. G. Grier and Y. Han. “Anomalous attractions in confined charge-stabilized colloid.”J. Phys.: Condens. Matt.16, S4145—S4157 (2004).
M. Pelton, D. G. Grier and P. Guyot-Sionnest. “Characterizing quantum-dot blinking using noise power spectra.”Appl. Phys. Lett.85, 819-821 (2004).
Y. Han and D. G. Grier. “Configurational temperature of charge-stabilized colloidal monolayers.”Phys. Rev. Lett.92, 148301 (2004).
Y. Han and D. G. Grier. “Vortex rings in a constant electric field.”Nature424, 267 (2003).
Y. Han and D. G. Grier. “Confinement-induced colloidal attractions in equilibrium.”Phys. Rev. Lett.91, 038302 (2003).
S. H. Behrens, J. Plewa and D. G. Grier. “Measuring a colloidal particle's interaction with a flat surface under nonequilibrium conditions.”Euro. Phys. J. E10, 115-121 (2003).
A. Gopinathan, T. Zhou, S. N. Coppersmith, L. P. Kadanoff and D. G. Grier. “Weak long-ranged Casimir attraction in colloidal crystals.”Europhys. Lett.57, 451-457 (2002).
S. H. Behrens and D. G. Grier. “The charge of glass and silica surfaces.”J. Chem. Phys.115, 6716-6721.
S. H. Behrens and D. G. Grier. “Pair interaction of charged colloidal spheres near a charged wall.”Phys. Rev. E64, 050401 (R) (2001).
E. R. Dufresne, D. Altman and D. G. Grier. “Brownian dynamics of a sphere between parallel walls.”Europhys. Lett.53, 264-270 (2001).
D. G. Grier and S. H. Behrens. “Interactions in colloidal suspensions: Electrostatics, hydrodynamics and their interplay.” In “Electrostatic Effects in Biophysics and Soft Matter,” edited by C. Holm, P. Kékicheff and R. Podgomik (Kluwer, Dordrecht, 2001).
E. R. Dufresne, T. M. Squires, M. P. Brenner and D. G. Grier. “Hydrodynamic coupling of two Brownian spheres to a planar surface.”Phys. Rev. Lett.8

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