HIGH TEMPERATURE PLASMA DIAGNOSTICS CONFERENCE Monday, April 16, 2018 Thursday, April 19, 2018 Paradise Point Resort & Spa, San Diego, California, USA 1 Schedule Overview Sunday Monday Tuesday Wednesday Thursday April 15, 2018 April 16, 2018 April 17, 2018 April 18, 2018 April 19, 2018 Morning Session #1 Session #5 Session #9 Session #13 (8:30- 10:30, (Invited Talks) (Invited Talks) (Invited Talks) (Invited Talks) and 10:30-12:30) and #2 (Posters) and #6 (Posters) and #10 (Posters) #14 (Posters) 2 Afternoon Session #7 (2:00 - 4:00, Break (Invited Talks) Break 4:00- 6:00PM) and #8 (Posters) Registration Evening Session #3 Session #11 (4 PM to 7 PM), (6:30- 8:30PM, (Invited Talks) Banquet (Invited Talks) Reception 8:30-10:30PM) and #4 (Posters) and #12 (Posters) (6 PM to 8 PM) 22nd Topical Conference on High- Temperature Plasma Diagnostics Monday, April 16, 2018 - Thursday, April 19, 2018 Paradise Point Resort & Spa, San Diego, California, USA Welcome to the 22nd Topical Conference on High Temperature Plasma Diagnostics! This biennial conference brings together plasma physicists and engineers from a variety of fields, including magnetic confinement fusion, inertial confinement fusion, space plasmas, astrophysics, and industrial applications, to discuss mutual problems in the development of instrumentation, experimental and analytical techniques for the characterization of high temperature plasmas. SanDiegoHTPD2018.com 1 Table of Contents Committee Attribution 5 Exhibitors and Sponsors 6 Monday Schedule Detail 8 Tuesday Schedule Detail 20 Wednesday Schedule Detail 32 Thursday Schedule Detail 44 3 Conference Chair Réjean Boivin, General Atomics HTPD Program Committee April 2018 Theodore Biewer, Oak Ridge National Laboratory Réjean Boivin, General Atomics David Brower, University of California - Los Angeles Calvin Domier, University of California - Davis Johan Frenje, Massachusetts Institute of Technology Gareth Hall, Lawrence Livermore National Laboratory Hans Herrmann, Los Alamos National Laboratory Terance Hilsabeck, General Atomics George McKee, University of Wisconsin – Madison John Rice, Massachusetts Institute of Technology Greg Rochau, Sandia National Laboratories Brent Stratton, Princeton Plasma Physics Laboratory Wolfgang Theobald, University of Rochester George Vayakis, ITER Organization We would like to sincerely thank Donald Hillis (ORNL), Robert Kauffman (LLNL), Joseph Kilkenny (GA), James Knauer (U. Rochester), Kirk Levedahl (DOE), Francis Thio (DOE), and Glen Wurden (LANL) who have served on this committee over the last several years. 5 he Ornier would like to th ur Exhibir ad Sonr r their enerus surt 6 7 HTPD Conference April 16-19, 2018, San Diego # Title Presenter Affiliation Monday April 16th Start: 8:30 AM Welcoming Words Monday April 16th Start: 8:45 AM, End: 10:45 AM, Chair: D. Brower, UCLA 30 minutes each 1.1 Tests of a Full-Scale ITER Toroidal Michael General Atomics Interferometer and Polarimeter (TIP) Van Zeeland Prototype 1.2 A High-Throughput, Pulse-Front-Tilt– Joseph LLE Compensated Streaked Spectrometer for Katz Picosecond Optical Thomson Scattering from Electron Plasma Waves 1.3 A combined interferometer/phase Evan MIT PSFC contrast imaging diagnostic for multiscale Davis fluctuation measurements 1.4 Dual Laser Holography for In-Situ Theodore Oak Ridge Measurement of Plasma Facing Component Biewer National Lab. Erosion 8 Monday April 16th Start: 10:45 AM, End: 12:45 PM 2.1 Measurement of apparent ion temperature Maria MIT PSFC using the magnetic recoil spectrometer at Gatu the OMEGA laser facility Johnson 2.2 First Mirror Test in JET for ITER: causes for Sunwoo Royal Institute of reflectivity degradation Moon Technology (KTH) 2.3 High Detection Efficiency Scintillating Fiber Kunihiro National Institute Detector for Time-Resolved Measurement Ogawa for Fusion of Triton Burnup 14 MeV Neutron in Science Deuterium Plasma of Middle Size Tokamak 2.4 Using Motional Stark Splitting of Dα Keith General Atomics Emission to Constrain MHD Equilibrium Burrell Analysis in DIII-D Plasmas 2.5 Microscope requirements to diagnose high- Louisa LLNL spatial-frequency bright spots in inertial Pickworth confinement fusion implosions at the national ignition facility 2.6 Development of the multi-pass Thomson Masayuki Plasma Research scattering system with the laser Yoshikawa Center, University amplification system of Tsukuba 2.7 Simultaneous measurement of CVI, NeX Yingying Institute of and LiIII charge exchange lines on EAST Li Plasma Physics, Chinese Academy of Sciences 2.8 Velocity-space sensitivity of the time- Lijian Peking University of-flight neutron spectrometer of EAST Ge deuterium plasmas 2.9 Laser Induced Fluorescence for Singly Thomas West Virginia Ionized Atomic Iodine Steinberger University 2.10 Multi-Angled Multi-Pulsed Time-Resolved Jacob Cornell University Thomson Scattering on Laboratory Plasma Banasek Jets 2.11 Presenting the characterisation of a Pulse Alex AWE Dilation Photo Multiplier Tube intended Leatherland for use with a gamma-ray sensitive Gas Cherenkov Detector at NIF 2.12 A Wolter Imager on the Z Machine to Jeffrey R Sandia National Diagnose Warm X-ray Sources Fein Laboratories 2.13 Development of an optical Thomson Lucy AWE Plc scattering system for the Orion laser Wilson 9 Monday April 16th Start: 10:45 AM, End: 12:45 PM 2.14 Velocity-space sensitivity of the compact Yimo Peking University neutron emission spectrometers at EAST Zhang 2.15 Modeling the One-Dimensional Imager of Jeremy University of Neutrons (ODIN) for Neutron Response Vaughan New Mexico Functions at the Sandia Z Facility 2.16 Developing a Fast Visible Camera Diagnostic Elizabeth Oak Ridge for 2D-Measurements of the Balmer Series Lindquist National and Impurity Emission Lines in Proto-MPEX Laboratory, Hope Plasma Discharges College 2.17 Upgrade of the ECE diagnostic on EAST Hailin University of Zhao Texas 2.18 Real-Time Digital Phase Demodulator Randy Allen Palomar Scientific for the ITER Toroidal Interferometer and Colio Instruments Polarimeter (TIP) 2.19 Self-calibrating techniques for polarimetric Leonardo Padova Thomson scattering Giudicotti University 2.20 Self-Calibration of Electron Cyclotron Jinlin Dept. of Emission Imaging with Shape Matching Xie Modern Physics, University of science and technology of China 2.21 Signal to noise ratio of upgraded imaging Byron Jay National Institute bolometer for KSTAR Peterson for Fusion Science 2.22 Measurement of argon impurity by X-ray Yan Huazhong imaging crystal spectrometer on J-TEXT Wei University of Science and Technology 2.23 First results of multi-channel scintillator- Takahiro SOKENDAI based SX diagnostic with P47 scintillator in Bando deuterium plasma experiments of LHD and examination of method for design in EAST 2.24 The multi-channel Doppler Backscattering CHU University of system on EAST ZHOU Science and Technology of China 2.25 The new magnetic diagnostics in the WEST Philippe CEA tokamak Moreau 10 Monday April 16th Start: 10:45 AM, End: 12:45 PM 2.26 Diagnostic Suite of the C-2W Advanced Matthew TAE Technologies, Beam-Driven Field-Reversed Configuration Thompson Inc. Plasma Experiment 2.27 First Measurements of a scintillator based Javier Department of Fast-Ion Loss Detector near the ASDEX Gonzalez- Mechanical and Upgrade Divertor Martin Manufacturing Engineering, University of Seville 2.28 Distribution of collected target debris using John Lawrence the Large Area Solid Debris Radiochemistry Despotopulos Livermore Collector National Lab 2.29 Unabsorbed Light Beamlets for Diagnosing Dana Laboratory for Cross-Beam Energy Transfer Edgell Laser Energetics, University of Rochester 2.30 The Dilation Aided Single-Line-of-Sight Sabrina R. Lawrence Camera for the National Ignition Facility, Nagel Livermore Characterization and Fielding National Laboratory 2.31 Development of an Electrostatic Dust Tobin University of Injector for Impurity Injection in Tokamak Munsat Colorado Plasmas 2.32 Polarization-splitting crystals for 2–30 keV R. Nevada National spectral lines Presura Security Site, New Mexico Operations 2.33 Performance of a Cauchois Geometry Mark Lawrence Spectrometer at the National Ignition May Livermore Facility National Laboratory 2.34 Geometric fractionation of the NIF Narek Lawrence hohlraum debris Gharibyan Livermore National Laboratory 2.35 Initial Beam Emission Spectroscopy Yifan University of diagnostic system on the HL-2A tokamak Wu Science and Technology of China 11 Monday April 16th Start: 10:45 AM, End: 12:45 PM 2.36 A multi-species powder dropper for Alessandro Princeton magnetic fusion applications Bortolon Plasma Physics Laboratory 2.37 The NIF backscatter system: current Nuno Lawrence capabilities and planned improvements Lemos Livermore National Laboratory 2.38 Average neutron time-of-flight instrument Jedediah University of response function inferred from single D-T Styron New Mexico neutron events within a plastic scintillator 2.39 Radiation diagnostics for plasma current Binbin Tsinghua ramp-up and ramp-down research Wang University 2.40 Multiple nuclear burn history Alex LANL measurements using Cherenkov γ-ray Zylstra detectors 2.41 Commissioning and Calibration of VUV Jongin Seoul National Spectrometer on Versatile Experiment Wang University Spherical Torus 2.42 Upgrades to the electron cyclotron Kyu-Dong National Fusion emission diagnostic in KSTAR Lee Research Institute 2.43 Systematic study of turbulence properties Yan IRFM, CEA through reflectometry spectra Sun Cadarache 2.44 Coherence imaging system for 2D Nakamura Graduate School distribution