Executive Ballroom210HExecutive Ballroom210GExecutive Ballroom210FExecutive Ballroom210E<strong>CLEO</strong>: <strong>Science</strong>& InnovationsCTu3E • Advanced NLOConcepts—ContinuedCTu3F • Silicon Photonics—ContinuedCTu3G • Microwave PhotonicsII—ContinuedCTu3H • Novel Trace GasSensing—ContinuedCTu3E.8 • 18:15Noble metal nonlinear optical mirrors withadjustable spectral and angular bandwidths forall-optical controls at visible wavelengths, JamesHsu 1 , Canek Fuentes-Hernandez 1 , Alfred R. Ernst 1 ,Bernard Kippelen 1 ; 1 ECE, Georgia Institute ofTechnology, USA. A nonlinear optical (NLO) mirrorstructure can amplify the strong and ultrafastNLO properties of noble metal thin-films. Spectraland angular bandwidths of the NLO mirrors areadjustable while maintaining a large nonlinearreflectance change.CTu3F.7 • 18:15Chirped and Apodized Silicon Gratings EfficientlyCoupled to Normally Incident FiberArray, John L. Covey 1 , Ray T. Chen 1 ; 1 ElectricalEngineering, University of Texas Austin, USA. Asilicon grating coupler containing non-monotonicchirp, apodization, and quasi-periodicity is fabricated,re-designed, and measured. Simultaneousinput/output coupling from a standard fiber arrayat normal incidence results in a 60% coupling efficiencyper grating.CTu3G.8 • 18:15RF Photonic Filters with 20-ns BandwidthReconfiguration Based on Optical FrequencyCombs, Rui Wu 1 , Daniel E. Leaird 1 , AndrewM. Weiner 1 ; 1 School of Electrical and ComputerEngineering, Purdue University, USA. We presentbandwidth reconfigurable RF photonic filteringwith 20-ns reconfiguration speed based on afrequency comb with rapidly switched opticalbandwidth.CTu3H.7 • 18:15Rapid, wide bandwidth pulsed cavity ringdownspectroscopy, Toby K. Boyson 1 , Dylan R. Rittman 2 ,Thomas G. Spence 3 , Maria E. Calzada 3 , Abhijit G.Kallapur 1 , Ian R. Petersen 1 , Paul Kirkbride 4 , DavidS. Moore 2 , Charles C. Harb 1 ; 1 School of Engineeringand Information Technology, UNSW, Australia;2Shock and Detonation Physics Group, Los AlamosNational Laboratory, USA; 3 Department of Mathematical<strong>Science</strong>s and Department of Chemistry,Loyola University New Orleans, USA; 4 Forensicand Data Centres, The Australian Federal Police,Australia. We present a new variant of the CavityRingdown Spectroscopy (CRDS) that is able toscan across more than 1400 nm of spectral bandwidth,acquiring and analysing more than 150,000spectral datapoints in less than four seconds.18:30–20:30 Conference Reception and JTu4A • POSTER SESSION I: Nanophotonics, Lightwave Communications and Biophotonics,Exhibit HallNOTES__________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________<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.1252013<strong>CLEO</strong> <strong>Tuesday</strong>.indd 345/17/13 3:<strong>11</strong> PM
Meeting Room2<strong>11</strong>D-BMeeting Room212A-CMeeting Room212D-BMarriott San JoseSalon I & II<strong>CLEO</strong>: <strong>Science</strong>& InnovationsCTu3I • PrecisionSpectroscopy—ContinuedCTu3J • Novel Pulse Generationand Synthesis—ContinuedCTu3K • Structured Fibers andStructured Light—ContinuedCTu3L • Nanophotonics inOptical Communications—ContinuedCTu3J.8 • 18:15Sub-50fs pulse generation directly from a750MHz repetition rate dispersion managedYb:fiber ring laser, Chen Li 1 , Guizhong Wang 1 ,Tongxiao Jiang 1 , Aimin Wang 1 , Zhigang Zhang 1 ;1State Key Laboratory of Advanced Optical CommunicationSystem and Networks School of ElectronicsEngineering and Computer <strong>Science</strong>, PekingUniversity, China. We demonstrate sub-50fs pulsegeneration directly from a 750MHz repetition ratedispersion managed Yb:fiber ring laser by precisioncompensation of the intracavity dispersion.CTu3K.7 • 18:15Microwave Split-Ring Resonator for MicroplasmasGeneration in Hollow-Core OpticalWaveguides, Florian Vial 1 , Katell Gadonna 1 ,Benoît Debord 1 , Frédéric Gérôme 1 , Raphaël Jamier1 , Olivier Leroy 2 , Philippe Leprince 2 , CarolineBoisse-Laporte 2 , Fetah Benabid 1 ; 1 GPPMM group,Xlim Research Institute, France; 2 LPGP, France. Wereport on creation of micro-confined microwavedrivenplasmas sustained in a 200µm diameterargon-filled hollow-core optical waveguide usinga highly compact split-ring resonator.18:30–20:30 Conference Reception and JTu4A • POSTER SESSION I: Nanophotonics, Lightwave Communications and Biophotonics,Exhibit Hall<strong>Tuesday</strong>, <strong>11</strong> <strong>June</strong>NOTES__________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________________126 <strong>CLEO</strong>: 2013 • 9–14 <strong>June</strong> 20132013<strong>CLEO</strong> <strong>Tuesday</strong>.indd 355/17/13 3:<strong>11</strong> PM