Marriott San JoseSalon IIIMarriott San JoseSalon IVMarriott San JoseSalon V & VIMarriottWillow Glen I-III<strong>CLEO</strong>: Applications& Technology<strong>CLEO</strong>: <strong>Science</strong>& Innovations<strong>CLEO</strong>: <strong>QELS</strong>-<strong>Fundamental</strong> <strong>Science</strong>16:30–18:30ATu3M • Symposium on ThePath to Sustainable Energy:Laser Driven Inertial FusionEnergy: Technology of ICF: DriveLasers, Optical and NuclearDiagnosticsPresider: Siegfried Glenzer; SLACNational Accelerator Laboratory,United States16:30–18:30CTu3N • Imaging &Microscopy IIPresider: Siavash Yazdanfar; GEGlobal Research, United States16:30–18:30CTu3O • Micro and Nano-scaleImaging MicroscopyPresider: Yves Bellouard;Eindhoven University ofTechnology, Netherlands16:30–18:30QTu3P • Symposium onNanophotonics at the DOE/SCNanoscale <strong>Science</strong> ResearchCenters: NanoplasmonicsPresider: Igal Brener; SandiaNational Labs, United StatesATu3M.1 • 16:30 InvitedMeasurement on the National Ignition FacilityAdvance the <strong>Science</strong> of Inertial Confinement Fusion,Joe Kilkenny 1 ; 1 Lawrence Livermore NationalLaboratory, USA. The National Ignition Facility atLawrence Livermore National Laboratory is a 1.8MJ, 192 beam laser designed to produce the conditionsof temperature and density in compresseddeuterium-tritium ice which theory predictedwould produce thermonuclear ignition. All ofthe exquisite technical requirements of the laserand the targets have been met. A comprehensiveset of diagnostics has been installed with majorcontributions from the eight Laboratories andUniversities and four countries.CTu3N.1 • 16:30 InvitedHigh-speed Live-cell Super-resolution Microscopywith Stochastically Switching Fluorophores,Joerg Bewersdorf 1,2 ; 1 Cell Biology, YaleSchool of Medicine, USA; 2 Biomedical Engineering,Yale University, USA. Super-resolution microscopywith stochastically blinking fluorophores(FPALM/PALM/STORM, etc.) achieves ~25 nmresolution by localizing molecules in thousands ofcamera frames. Here I present a solution to speedup recording dramatically, enabling nanoscopyat video rate.CTu3O.1 • 16:30Multispectral Imaging using Polydimethylsiloxane(PDMS) Embedded Vertical Silicon Nanowires,Hyunsung Park 1 , Kenneth B. Crozier 1 ; 1 Schoolof Engineering and Applied <strong>Science</strong>s, HarvardUniversity, USA. We demonstrate the use of verticalsilicon nanowires for multispectral imaging. Theeight filter functions of our filter array are definedin a single lithography step. We show both visiblecolor and near-infrared imaging.QTu3P.1 • 16:30 InvitedUltrafast Processes in Semiconductor Nanocrystalsand Metal Nanoparticles, Matthew A.Pelton 1 ; 1 Argonne National Laboratory, USA. Iwill describe our studies of ultrafast light-inducedprocesses in semiconductor nanocrystals andmetal nanoparticles, including acoustic vibrationsin gold nanoparticles and charge separationin metal clusters and semiconductor nanocrystalheterostructures.ATu3M.2 • 17:00 InvitedLine-imaging Velocimetry for Shock Diagnostics(VISAR)”, Peter Celliers 1 , Thomas R. Boehly 2 ,Harry Robey 1 , John Moody 1 , J. S. Ross 1 , JosephRalph 1 , J. L. Kline 3 , David Farley 1 , S. Le Pape 1 , K.Krauter 1 , G. Frieders 1 , G. Ross 1 , A. Mackinnon 1 ,R. Olson 4 , T. Doeppner 1 , D. Munro 1 , J. Milovich 1 ,P. Sterne 1 , O. Jones 1 , D. Callahan 1 , Abbas Nikroo 5 ,J. Kroll 1 , J. Horner 1 , Alex Hamza 1 , S. Bhandarkar 1 ,J. Eggert 1 , R. F. Smith 1 , D. G. Hicks 1 , H. S. Park 1 ,B. K. Young 1 , W. W. Hsing 1 , G. W. Collins 1 , O. L.Landen 1 , D. D. Meyerhofer 2 , L. J. Atherton 1 , JohnEdwards 1 , S. W. Haan 1 , John Lindl 1 , B. MacGowan 1 ,Edward I. Moses 1 ; 1 Lawrence Livermore NationalLaboratory, USA; 2 Laboratory for Laser Energetics,USA; 3 Los Alamos National Laboratory, USA; 4 SandiaNational Laboratory, USA; 5 General Atomics,USA. The NIF laser pulse used for ignition experimentsis tuned by direct observation of the shockslaunched into the capsule during the initial phasesof the pulse. Optical velocimetry is key to this task.CTu3N.2 • 17:00Optical Fiber Vortices for STED Nanoscopy,Lu Yan 1 , Egidijus Auksorius 2 , Nenad Bozinovic 1 ,Guillermo J. Tearney 2 , Siddharth Ramachandran 1 ;1Electrical and Computer Engineering, Boston University,USA; 2 Wellman Center for Photomedicine,Massachusetts General Hospital and HarvardMedical School, USA. We demonstrate the firstproof of concept of a fiber-based STED nanoscopyillumination system. The fiber yields naturallyco-aligned vortex (dark-spot size~198nm) andGaussian beams (size~340nm), potentially enablingsub-30nm resolution imaging.CTu3O.2 • 16:45Ultrafast Surface Inspection using Hybrid DispersionLaser Scanner, Hongwei Chen 1,2 , KeisukeGoda 2,3 , Chao Wang 2 , Bahram Jalali 2 ; 1 Departmentof Electronic Engineering, National Laboratory forInformation <strong>Science</strong> and Technology (TNList), TsinghuaUniversity, China; 2 Department of ElectricalEngineering, University of California, Los Angeles,USA; 3 Department of Chemistry, University ofTokyo, Japan. We report an ultrafast surface inspectionmethod using a hybrid dispersion laserscanner. Using the technique, we demonstratereal-time detection of microparticles on siliconwafer surfaces at 1,000 times higher scan ratesthan conventional methods.CTu3O.3 • 17:00 InvitedAtom Probe Tomography: 3D Imaging of Materialsat the Atomic Scale using Ultrafast LaserPulses, Bernard Deconihout 1 , F. Vurpillot 1 , G. DaCosta 1 , J. Houard 1 , P. Pareige 1 , A. Vella 1 ; 1 Groupe dePhysique des Matériaux, CNRS, Université et INSAde ROUEN Normandie University, France. In thiscontribution, the principle of the 3D atom probeassisted by ultrafast laser pulses will be presentedand its performance illustrated through someexamples of applications such as dopant profilingin semiconductors or oxides.QTu3P.2 • 17:00 InvitedTransduction and Control of Sqeezed LightSources by Localized and Propagating SurfacePlasmons, Benjamin Lawrie 1 ; 1 Oak RidgeNational Laboratory, USA. The transduction ofmulti-spatial-mode squeezed light sources by localizedsurface plasmon mediated extraordinaryoptical-transmissionprovides a basis for nanoscalequantum information protocols and quantumenhanced biosensing.<strong>Tuesday</strong>, <strong>11</strong> <strong>June</strong>Concurrent sessions are grouped across four pages. Please review all four pages for complete session information.<strong>11</strong>92013<strong>CLEO</strong> <strong>Tuesday</strong>.indd 285/17/13 3:<strong>11</strong> PM
Executive Ballroom210AExecutive Ballroom210BExecutive Ballroom210CExecutive Ballroom210D<strong>CLEO</strong>: <strong>QELS</strong>-<strong>Fundamental</strong> <strong>Science</strong>JOINT<strong>CLEO</strong>: <strong>QELS</strong>-<strong>Fundamental</strong> <strong>Science</strong><strong>CLEO</strong>: <strong>Science</strong>& InnovationsQTu3A • HyperbolicMetamaterials II—ContinuedJTu3B • Symposium onAdvances in Extreme UV<strong>Science</strong> and Applications:Advances in Extreme UV<strong>Science</strong> and Applications I—ContinuedQTu3C • Selected Topics inQuantum Optics—ContinuedCTu3D • Short-wave IR Lasersand Laser Beam Propagation—ContinuedQTu3A.3 • 17:15Beam Transformations with Indefinite Metamaterials,Jingbo Sun 1 , Jingwei Zeng 1 , AlexanderCartwright 1 , Natalia M. Litchinitser 1 ; 1 State Universityof New York, USA. We investigate structuredlight propagation in indefinite optical metamaterialsand propose several novel functionalitiesenabled by these strongly anisotropic structures,including beam intensity and wavefront shapingas well as transformations of orbital angularmomentum.QTu3C.4 • 17:15Observation of Quantum Zeno Blockade in χ(2)Microresonators, Dmitry V. Strekalov 1 , AbijithKowligy 2 , Yu-Ping Huang 2 , Prem Kumar 2 ; 1 Jet PropulsionLaboratory, USA; 2 Northwestern University,USA. We report observing all-optical modulationwith a contrast of 80% via quantum Zeno blockadein a Lithium Niobate whispering-gallery-moderesonator at a pump peak power of 100µW.CTu3D.4 • 17:15Spectroscopic studies of Er3+ emission in codopedphosphate glasses, Simi George 1 ; 1 Researchand Technology Development, SCHOTT NorthAmerica, Inc., USA. The Er3+ laser performancein materials can be enhanced by co-doping withlarge amounts of Yb3+, along with Cr3+ and Ce3+.The study reported herein focused on examiningthe complex interactions between these ions, as itrelates to the laser emission at 1.5 μm from Er3+.QTu3A.4 • 17:30Broadband super-Planckian thermal emissionfrom hyperbolic metamaterials, Yu Guo 1 ,Zubin Jacob 1 ; 1 University of Alberta, Canada.We develop fluctuational electrodynamics ofhyperbolic metamaterials (HMMs) and establishbroadband near-field thermal emission beyond theblack-body limit. We predict thermal topologicaltransitions in phonon-polaritonic HMMs pavingthe way for near-field thermal engineering usingmetamaterials.JTu3B.3 • 17:30 InvitedNanoscale Soft X-ray Microscopy in the Laboratoryfor Biological Applications, Arno Merkle 1 ;1Xradia, United States. Nanoscale transmissionx-ray microscopy bridges the resolution gap betweenlight and electron microscopy, and a newlaboratory soft x-ray source has extended its utilityfor imaging whole frozen hydrated unstained cellswith