| |
|
Name |
Affiliation |
Abstract Title |
| 1 |
CD Plenary |
Hiroshi Hasegawa |
Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency |
Magnetic island formation in reconnecting electron-scale current sheet: Magnetospheric Multiscale observations in Earth’s magnetotail |
| 2 |
CD Plenary |
Ritoku Horiuchi |
National Institute for Fusion Science, National Institutes of Natural Sciences |
Energy Partition and Temperature Anisotropy in Merging Processes of two Spherical-Tokamak-type Plasmoids |
| 3 |
CD Plenary |
Hyeon Park |
Ulsan National Institute of Science and Technology |
Origin of the confusion of the sawtooth crash time scale in tokamak plasmas |
| 4 |
CD Plenary |
Jiayong Zhong |
Department of Astronomy, Beijing Normal University |
Electron Acceleration during Laser-Driven Magnetic Reconnection in a Low beta Plasma |
| 5 |
CD Invited |
Shunsuke Usami |
National Institute for Fusion Science, National Institutes of Natural Sciences |
Non-Maxwllian velocity distribution formed by Pick-Up-like behaviors of protons during magnetic reconnection |
| 6 |
CD Invited |
Seiji Zenitani |
Kobe University |
Dissipation in relativistic pair-plasma reconnection: revisited |
| 7 |
CD Invited |
Takuma Nakamura |
Space Research Institute (IWF)/Austrian Academy of Sciences (OeAW) |
Disturbance of the front region of magnetic reconnection outflow jets due to the lower-hybrid drift instability |
| 8 |
CD Invited |
Keizo Fujimoto |
Beihang University |
Magnetic dissipation in turbulent current layer to drive magnetic reconnection |
| 9 |
CD Invited |
Hiroshi Tanabe |
University of Tokyo |
Global/micro-scale fine structure formation process of magnetic reconnection in high field plasma merging experiments |
| 10 |
CD Invited |
Xinmin Li |
Unversity of science and technology of china |
Observation of non-gyrotropic electron distribution across the electron diffusion region in the magnetotail reconnection |
| 11 |
CD Invited |
Hirohisa Hara |
National Astronomical Observatory of Japan |
Thermal structures and plasma motions in plasma sheet of eruptive solar flares |
| 12 |
CD Invited |
Haotao Ji |
Princeton Plasma Physics Laboratory, Princeton University |
Frontiers of Magnetic Reconnection Research in Heliophysical, Astrophysical and Laboratory Plasma |
| 13 |
CD Invited |
Chio Zong Cheng |
Princeton Plasma Physics Laboratory, Princeton University |
Plasma heating and current sheet structure in driven magnetic reconnection |
| 14 |
CD Invited |
Shimou Wang |
University of Science and Technology of China |
Direct evidence of secondary reconnection inside filamentary currents of magnetic flux ropes in magnetic reconnection |
| 15 |
CD Invited |
Håkon Kolstø |
University of Bergen |
On the Impact of a Streaming Oxygen Population on Collisionless Magnetic Reconnection |
| 16 |
CD Invited |
Thomas Neukirch |
University of St. Andrews |
To be provided after selection |
| 17 |
CD Invited |
Giovanni Lapenta |
KU Leuven |
To be provided after selection |
| 18 |
CD Invited |
Rumi Nakamura |
Austrian Academy of Science |
To be provided by invitee upon selection |
| 19 |
CD Invited |
Lev Zelenyi |
Institut Kosmicheskih Issledovanyi |
To be provided after selection |
| 20 |
CD Invited |
Yongli Ping |
Department of Astronomy, Beijing Normal University |
Relativistic magnetic reconnection driven by ultraintense femtosecond lasers and electron acceleration |
| 21 |
CD Invited |
Suming Weng |
Shanghai Jiao Tong University |
Extreme case of Faraday effect and its applications |
| 22 |
CD Invited |
Dawei Yuan |
Key Laboratory of Optical Astronomy, National Astronomical Observatories, Chinese Academy of Sciences |
Experimental demonstration of nonlinear Weibel instability relevant to astrophysical shocks |
| 23 |
CD Invited |
Lei Ni |
Yunnan Observatories, Chinese Academy of Sciences |
The cross-scale coupled magnetic reconnection in the partially ionized low atmosphere of the Sun |
| 24 |
CD Invited |
Jongchul Chae |
Seoul National Univerisity |
Observations of Magnetic Reconnection Events in the Solar Chromosphere |
| 25 |
CD Invited |
Young Dae Yoon |
California Institute of Technology |
Collisionless Magnetic Reconnection: Explaining its Progression via the Canonical Vorticity Framework and Identifying Stochastic Heating as the Anomalous Ion Heating Mechanism |
| 26 |
CD Invited |
Michiaki Inomoto |
University of Tokyo |
Role of parallel electron current channel in high guide field magnetic reconnection |
| 27 |
CD Invited |
Shaokang Xu |
Peking University |
Phase Regulation Mechanism of Bernstein-Greene-Kruskal mode |
| 28 |
CD Invited |
Yasushi Ono |
University of Tokyo |
Interdisciplinary Study of Magnetic Reconnection for Space and Laboratory Plasma |
| 29 |
CD Invited |
Mikhail Gryaznevich |
Tokamak Energy Inc. |
Magnetic Reconnection Studies in High Field Spherical Tokamak |
| 30 |
CD Invited |
Andris Vaivads |
KTH Stockholm |
tbd |
| 31 |
A Plenary |
Jing Zhang |
Donghua University |
Investigation of Reactive Atmospheric Pressure Plasma deposition of Nano-particulate Film |
| 32 |
A Plenary |
Hong Young Chang |
KAIST |
A role of high power ATM Plasma for the environment |
| 33 |
A Plenary |
Koichi Takaki |
Iwate University |
Pulsed Power Applications for Agriculture and Food Processing |
| 34 |
A Plenary |
Uwe Czarnetzki |
Ruhr-Universitat Bochum |
Local and Non-Local Electron Heating in Low-Pressure Plasmas |
| 35 |
A Topical
Plenary |
William Schneider |
University of Notre Dame |
Plasma catalysis |
| 36 |
A Topical
Plenary |
Takayuki Watanabe |
Kyushu University |
Water Thermal Plasma Characteristics with Mist Generation for Waste Decomposition |
| 37 |
A Topical
Plenary |
Qiang Chen |
Beijing Institute of Graphic Communication |
Plasma assisted atomic layer deposition and diagnostics |
| 38 |
A Topical
Plenary |
Se Youn Moon |
Jeonbuk National University |
Continuous, selective and simultaneous oil/water separation with functionalized
meshes by atmospheric-pressure cold plasma |
| 39 |
A Invited |
Rajdeep Singh Rawat |
Nanyang Technological University |
Sustainable Plasma Chemistry based efficient approach for energy materials |
| 40 |
A Invited |
Magdaleno R. Vasquez Jr. |
University of the Philippines Diliman |
Development of sub-100 eV broad-beam ion source system |
| 41 |
A Invited |
Takafumi Okuma |
Panasonic Corporation |
Characterization of Multiphase AC Arc by High-Speed Visualization |
| 42 |
A Invited |
Shota Nunomura |
National Institute of Advanced Industrial Science and Technology (AIST) |
Plasma-induced electronic defects: formation and recovery kinetics in silicon |
| 43 |
A Invited |
Kenji Ishikawa |
Nagoya University |
Germination kinetics of plasma-activated seeds |
| 44 |
A Invited |
Kunihiro Kamataki |
Kyushu University |
Amplitude Modulated CVD Plasma for Control of Growth of Nano-particles and Properties of Films |
| 45 |
A Invited |
Kosuke Takenaka |
Osaka University |
Low-temperature fabrication of high-mobility InGaZnO thin-film transistors using plasma-assisted reactive processes |
| 46 |
A Invited |
Giichiro Uchida |
Faculty of Science and Technology, Meijo University |
Application of plasma sputtering nanoparticle films to negative electrode of Li ion battery |
| 47 |
A Invited |
Hitoshi Tamura |
Hitachi High-Tech Corporation |
Study on microwave propagation and uniform plasma generation in an ECR plasma etching reactor |
| 48 |
A Invited |
Kil-Byoung Chai |
Korea Atomic Energy Research Institute |
Development of high heat and particle load test facility to study plasma-surface interactions |
| 49 |
A Invited |
Hyo-Chang Lee |
Korea Research Institute of Standards and Science |
Discharge physics of inductively coupled plasmas |
| 50 |
A Invited |
Suresh Chandra Sharma |
Delhi Technological University |
Analytical Model to study the effect of presence of water in PECVD chamber on the growth and characteristics of Carbon Nanofibers |
| 51 |
A Invited |
Ryuta Ichiki |
Oita University |
Demonstration of Bright Nitriding for Steel with Pulsed-Arc Plasma Jet |
| 52 |
A Invited |
Toshiyuki Kawasaki |
Nishinippon Institute of Technology |
Experimental identification of reactive oxygen species transported in the liquid depth direction by plasma direct irradiation |
| 53 |
A Invited |
Yoshinori Takao |
Yokohama National University |
Electron transport and plasma instability in ECR plasma discharges for a miniature ion thruster |
| 54 |
A Invited |
Matt Thompson |
Australian National University |
One-step plasma synthesis of nanostructured silicon surfaces |
| 55 |
A Invited |
Xiaoxia Zhong |
Shanghai Jiao Tong University |
Atmospheric pressure microplasma in close proximity to liquid and its applications in synthesis of nanoparticles |
| 56 |
A Invited |
Naho Itagaki |
Kyushu University |
Sputter epitaxy through “inverse” SK mode for a new class of excitonic devices |
| 57 |
A Invited |
Anne Mai-Prochnow |
University of Sydney |
Antimicrobial applications of cold plasma and plasma-activated water (PAW) |
| 58 |
A Invited |
Masanori Shinohara |
Fukuoka University |
Infrared spectroscopic study of control of plasma induced surface reactions during plasma chemical vapor deposition with ether molecules as source molecules |
| 59 |
A Invited |
Hai-Xing Wang |
Beihang University |
Numerical Simulation of Dynamic Arc Root Attachment in a Three-Dimensional Transferred Arc Plasma Device |
| 60 |
A Invited |
Vlad Vekselman |
Princeton Plasma Physics Laboratory |
Non-stationary plasma as a precursor for nanoparticles growth |
| 61 |
A Invited |
Yong-Xin Liu |
School of physics, Dalian University of Technology |
Impedance change and novel mode transitions during gas breakdown in a low-pressure capacitive radio-frequency discharge |
| 62 |
A Invited |
Sophia Gershman |
Princeton Plasma Physics Laboratory |
Electrical Discharge in Gas Bubbles |
| 63 |
A Invited |
Toshiro Kaneko |
Tohoku University |
Direct spray of solution containing short-lived reactive species for plant pathogen control |
| 64 |
A Invited |
Dong Hun Shin |
NFRI |
High efficiency carbonization and torrefaction of food waste using a microwave
plasma burner |
| 65 |
A Invited |
Yeunsoo Park |
NFRI |
Fundamental understanding of DNA damage by low energy electron collision |
| 66 |
A Invited |
Sanghoo Park |
NFRI |
Electrohydrodynamic effect on physicochemical properties of plasma-water
systems: experimental and numerical investigations |
| 67 |
A Invited |
Young Koung Lee |
NFRI |
How plasma activated water regulates plant development and growth |
| 68 |
A Invited |
Tao Shao |
Donghua University |
Fast pulsed non-thermal plasmas for catalyst-free and catalytic CH4 activation |
| 69 |
A Invited |
Xi-Ming Zhu |
Donghua University |
Development of OES methods for diagnostics of the plume region of electric
thrusters |
| 70 |
A Invited |
Ying Guo |
Donghua University |
Ultra-Durable, Fluorine-free Superhydrophobic Fabrics by Plasma Exploiting
Self-healing Wrinkled Skins on Fibers |
| 71 |
SG Plenary |
Gurudas Ganguli |
Naval Research Laboratory, Washington, DC |
Behavior of Compressed Plasma in Magnetic Field - Application to Space
Physics |
| 72 |
SG Plenary |
Abraham Chian |
University of Adelaide |
Lagrangian coherent structures in laboratory and space plasmas |
| 73 |
SG Plenary |
Kanya Kusano |
Institute for Space-Earth Environmental Research (ISEE), Nagoya University |
A challenge to the physics-based prediction of giant solar flares |
| 74 |
SG Plenary |
Chuanyi Tu |
Beijing University |
The nature of the solar wind turbulence : challenge for future study |
| 75 |
SG Topical Plenary |
Tohru Hada |
Kyushu University |
Outstanding issues in plasma Riemann problem |
| 76 |
SG Topical Plenary |
Shuichi Matsukiyo |
Kyushu University |
Heliospheric boundary: Kinetic structure, cosmic ray property |
| 77 |
SG Topical Plenary |
Lou Lee |
Academia Sinica |
Fluid and kinetic aspects of magnetic reconnection and some related magnetospheric phenomena |
| 78 |
SG Topical Plenary |
Bruce Tsurutani |
retired |
NASA Magnetospheric Satellite Chorus and Plasmaspheric Hiss Coherency Observations: Scientific Implications |
| 79 |
SG Invited |
Vipin Yadav |
Planetary Science Branch, Space Physics Laboratory (SPL), Vikram Sarabhai Space Centre (VSSC), |
Plasma Waves in and around the Moon |
| 80 |
SG Invited |
Kumiko Hori |
Kobe University |
Slow magnetic Rossby waves in Earth’s core |
| 81 |
SG Invited |
Chris Crabtree |
Naval Research Laboratory, Washington, D.C. |
Kinetic Physics of Compressed Boundary Layers: Theory, Simulation, and in situ Observations |
| 82 |
SG Invited |
Xiaoli Yan |
Yunnan Observatories, Chinese Academy of Sciences |
Small-scale magnetic reconnection in high resolution observation |
| 82 |
SG Invited |
Yasuhito Narita |
Space Research Institute, Austrian Academy of Sciences |
Electromotive force in space plasmas |
| 83 |
SG Invited |
Heesu Yang |
Korean Astronomy and Space Science Institute (KASI) |
Formation of Photospheric Vortices and its-Associated Hα Surges in a Solar Light Bridge |
| 84 |
SG Invited |
Roksoon Kim |
KASI Deajeon |
: CME-CME interaction near the Earth |
| 85 |
SG Invited |
Xin Tao |
University of Science and Technology of China |
Controlling the chirping of chorus waves via magnetic field inhomogeneity |
| 86 |
SG Invited |
Girgis Kirolosse |
Kyushu University |
Numerical Study of the Proton Flux Response in the South Atlantic Anomaly during a Geomagnetic Storm |
| 87 |
SG Invited |
Fumiko Otsuka |
ESST, Kyushu Univ. |
Stochastic acceleration of electrons at collisionless quasi-perpendicular shocks: PIC simulation |
| 88 |
SG Invited |
Yu Lin |
Auburn University |
Global simulation of kinetic Alfvén waves in the magnetotail and their
coupling to the ionosphere |
| 89 |
SG Invited |
Ensang Lee |
Kyung Hee University |
Transport of Ions at Earth’s Collisionless Bow Shock |
| 90 |
SG Invited |
Jongho Seon |
Kyung Hee University |
Recent progress on space weather missions in Korea |
| 91 |
SG Invited |
Kyungguk Min |
Chungnam National University |
Relationship of EMIC/Magnetosonic waves and energetic particle enhancements: Observations and Simulations |
| 92 |
SG Invited |
Kai Huang |
University of Science and Technology of China |
Scaling of magnetic reconnection with a limited x-line extent |
| 93 |
SG Invited |
Yangguang Ke |
University of Science and Technology of China |
Effects of density ducts on chorus waves in the Earth's magnetosphere |
| 94 |
SG Invited |
San Lu |
UCLA |
Energetic electron acceleration by ion-scale magnetic islands in turbulent magnetic reconnection |
| 95 |
SG Invited |
Run Shi |
Tongji University |
Mode conversion from kinetic Alfven waves to electron acoustic waves in the topside ionosphere |
| 96 |
SG Invited |
Wenya Li |
National Space Science Center, Chinese Academy of Sciences |
High-frequency electrostatic waves driven by electron crescents in the electron diffusion region |
| 97 |
SG Invited |
Zhihong Zhong |
Nanchang University |
Three-dimensional Patchy Magnetic Reconnection in Magnetosphere |
| 98 |
SG Invited |
Shiyong Huang |
Wuhan University |
Observations of Large Scale Magnetic Reconnection under Guide Field within Thick Current Sheet at the Magnetopause Boundary Layer |
| 99 |
SG Invited |
Xinliang Gao |
University of Science and Technology of China |
Statistical evidence for the generation and role of EMIC waves |
| 100 |
SG Invited |
Mao Aohua |
Harbin Inst Technology |
Introduction to Space Plasma Environment Research Facility (SPERF) in China |
| 101 |
SG Invited |
Iver Cairns |
U. Sydney |
tbd |
| 102 |
SG Invited |
Meng Zhou |
Nanchang University |
Turbulent Magnetic Reconnection in Earth’s Magnetotail: Secondary Reconnection, Wave Modes and Electron Energization |
| 103 |
SG Invited |
Donald Melrose |
U. Sydny |
A generic radio emission for pulsars |
| 104 |
SG Invited |
Kotaro Yoshida |
Kyushu University |
Trajectory analysis of galactic cosmic rays injected into the heliosphere |
| 105 |
SA Plenary |
Shuang-Nan Zhang |
Institute of High Energy Physics |
Highlights of China’s first X-ray astronomy satellite Insight-HXMT |
| 106 |
SA Plenary |
Yong Jae Moon |
Kyung Hee University |
Application of Deep Learning to Solar Data |
| 107 |
SA Plenary |
Katia Ferriere |
Observatoire Midi-Pyrenees |
Plasma turbulence in the interstellar medium |
| 108 |
SA Plenary |
Prateek Sharma |
Indian Institute of Science, Bangalore |
The multiphase circumgalactic medium |
| 109 |
SA Topical Plenary |
Hyesung Kang |
Pusan National University |
Particle Acceleration at weak shocks in high beta ICM plasma |
| 110 |
SA Topical Plenary |
Silvio Sergio Cerri |
Department of Astrophysical Sciences, Princeton University |
Kinetic turbulence and ion heating in the solar wind |
| 111 |
SA Topical Plenary |
Tetsuya Magara |
Kyung Hee University |
Dynamic evolution of solar emerging magnetic fields: An approach to the origins of solar flares and coronal mass ejections |
| 112 |
SA Topical Plenary |
Joerg Buechner |
Technical University of Berlin, Center for Astronomy and Astrophysics |
Magnetic reconnection in turbulent space and astrophysical plasmas |
| 113 |
SA Topical Plenary |
Yasuhiro Kuramitsu |
Osaka University |
Local and global observations of magnetic reconnection in laser produced plasmas |
| 114 |
SA Invited |
Qing Min Zhang |
Purple Mountain Observatory, Nanjing |
Longitudinal filament oscillations enhanced by two C-class flares |
| 115 |
SA Invited |
Ding Yuan |
Harbin Institute of technology |
Quasi-periodic pulsation in solar and stellar flares |
| 116 |
SA Invited |
Allard Jan van Marle |
LUPM, Montpellier |
Numerical models of particle acceleration in low-Mach, high beta galaxy cluster shocks |
| 117 |
SA Invited |
Min Sup Hur |
UNIST |
Modeling cosmic radio bursts via plasma dipole oscillation |
| 118 |
SA Invited |
Yuhao Zhou |
Centre for mathematical Plasma Astrophysics, KU Leuven |
Formation of filament fine-structures and their counter-streaming flows |
| 119 |
SA Invited |
R.P. Prajapati |
Department of Pure & Applied Physics Guru Ghasidas Vishwavidyalaya |
Rayleigh-Taylor instability in degenerate strongly coupled quantum plasma |
| 120 |
SA Invited |
Jeongwoo Lee |
New Jersey Institute of Technology/ Shandong University |
Solar Flares with Circular Ribbons |
| 121 |
SA Invited |
Fang Shen |
National Space Science Center, CAS, |
Numerical Simulation on the Propagation and Deflection of Fast Coronal Mass Ejections (CMEs) in the Heliosphere |
| 122 |
SA Invited |
Xiangliang Kong |
Shangdong University |
The Acceleration of Energetic Electrons at the Solar Flare Termination Shock |
| 123 |
SA Invited |
Xiaohui Sun |
Yunnan University |
Diagnose interstellar plasma with radio polarization observations |
| 124 |
SA Invited |
Chang-Mo Ryu |
CoRels (Gwangju, IBS) & POSTECH |
Coronal heating by Alfvén waves |
| 125 |
SA Invited |
Gangadharag Roppa Thimmappa |
Indian Institute of Astrophysics |
Pulsar magnetic field evolution and observations |
| 126 |
SA Invited |
Cong Yu |
Sun Yat-sen University |
Magnetic Twist Induced Eruptions in Magnetars |
| 127 |
SA Invited |
Eun-Kyung Lim |
Korea Astronomy and Space Science Institute |
High Spatio-temporal Resolution Observations of Flux Emergence and its associated Eruptions |
| 128 |
SA Invited |
Munehito Shoda |
National Astronomical Observatory of Japan |
Three-dimensional simulation of the fast solar wind driven by compressional MHD turbulence |
| 129 |
SA Invited |
Leping Li |
National Astronomical Observatories, Chinese Academy of Sciences |
Coronal condensations caused by magnetic reconnection between solar coronal loops |
| 130 |
SA Invited |
Shuhong Yang |
National Astronomical Observatories, Chinese Academy of Sciences |
NVST observations of magnetic activities in the highly dynamic solar chromosphere |
| 131 |
SA Invited |
Sayak Bose |
Princeton Plasma Physics Laboratory |
Understanding the role of Alfvén waves in heating solar coronal holes through
laboratory experiments |
| 132 |
SA Invited |
Tanmoy Samanta |
Department of Physics and Astronomy, George Mason University |
Generation of solar spicules and subsequent atmospheric heating |
| 133 |
SA Invited |
Masanori Iwamoto |
Kyushu University |
Wakefield excitation by synchrotron maser emission and associated particle acceleration in relativistic shocks |
| 134 |
SA Invited |
Yutaka Ohira |
The University of Tokyo |
Origin of the first cosmic rays |
| 135 |
SA Invited |
Clara Froment |
LPC2E, CNRS, Université d’Orléans |
Constraining the location and frequency of the energy deposition in the solar corona with thermal non-equilibrium observations |
| 136 |
SA Invited |
Takuma Matsumoto |
National Astronomical Observatory of Japan |
Toward self-consistent 3D simulations of solar wind using compressible MHD |
| 137 |
SA Invited |
Tsuyoshi Inoue |
Department of Physics, Nagoya University |
Can Supernova Shock Wave be Accelerator of 1PeV Particles ? |
| 138 |
SA Invited |
Feng Chen |
School of Astronomy and Space Physics, Nanjing University |
Realistic radiative MHD simulations of flux emergence from the convection zone to the corona |
| 139 |
SA Invited |
Hui Li |
Los Alamos National Laboratory |
Studying the Astrophysical Turbulent Dynamo using the OMEGA-EP Lasers |
| 140 |
B Plenary |
Sudeep Bhattacharjee |
Indian Institute of Technology, Kanpur, India |
Intriguing physics of plasmas confined by a dipole magnet driven at steady state |
| 141 |
B Plenary |
Giovanni Manfredi |
Centre National de la Recherche Scientifique |
Spin effects in plasmas |
| 142 |
B Plenary |
Haejune Lee |
Pusan National University |
Control of nonlinear sheath dynamics and plasma kinetics in a capacitively coupled plasma by the change of voltage waveforms and surface interactions |
| 143 |
B Plenary |
Haruhiko Himura |
Kyoto Institute of Technology, Department of Electronics |
Investigation of two-fluid plasma state by extending ion skin depth in laboratory plasmas |
| 144 |
B Topical Plenary |
Zhandos Moldabekov |
Al Farabi University |
Theoretical Foundations of Quantum hydrodynamics for dense plasmas |
| 145 |
B Topical Plenary |
Didier Bénisti |
CEA, DAM |
Nonlinear plasma kinetic theory and applications to plasma instabilities |
| 146 |
B Topical Plenary |
Kazunori Takahashi |
Tohoku University |
Thermodynamics of electrons expanding in a magnetic nozzle |
| 147 |
B Topical Plenary |
Felipe Iza |
Loughborough University |
Nonthermal Plasmas and Liquids |
| 148 |
B Topical Plenary |
Sita Sunder |
Indian Insitute of Technology |
PIC simulations of dust particles and wake effects in magnetic fields |
| 149 |
B Invited |
Cheng-Ran Du |
Donghua University |
Numerical study of the penetration of a fast-moving particle at the interface in a 3D binary complex plasma |
| 150 |
B Invited |
Shin-Jae You |
Chungnam National University |
Real-time plasma monitoring during plasma semiconductor processing |
| 151 |
B Invited |
Cormac Corr |
Australian National University |
Hydrogen Plasma Dynamics in Magnetic Fields |
| 152 |
B Invited |
Takeru Furukawa |
Tokyo University of Agriculture and Technology |
Experimental Study of Additional Plasma Acceleration Method Using Rotating Magnetic Field in Electrodeless Plasma Propulsion |
| 153 |
B Invited |
Ya-feng He |
College of Physics Science and Technology, Hebei University, China |
Experimental Demonstration of a Dusty Plasma Ratchet Rectification and Its Reversal |
| 154 |
B Invited |
Chris Crabtree |
Naval Research Laboratory |
Kinetic Physics of Compressed Boundary Layers: Theory, Simulation, and in situ Observations |
| 155 |
B Invited |
Shantanu Karkari |
Institute for Plasma Research |
Negative ion research in laboratory devices: Physics and Modeling |
| 156 |
B Invited |
Heremba Bailung |
Institute of Advanced study in Science and Technology |
Vortex formation in flowing dusty plasma |
| 157 |
B Invited |
Yan Feng |
Soochow University |
Substrate dynamics of two-dimensional dusty plasmas |
| 158 |
B Invited |
Lalit Mohan Awasthi |
Institute for Plasma Research, Gandhinagar |
Investigations on Electron Temperature Gradient (ETG) Turbulence and Plasma Transport in LVPD |
| 159 |
B Invited |
Zhang-Hu Hu |
School of Physics, Dalian University of Technology |
Gamma-ray beam produced by a plasma lens focused electron bunch |
| 160 |
B Invited |
BAOREN WEI |
Fudan University |
the studies of charge transfer in the interaction between highly charged ions and molecule at Fudan University |
| 161 |
B Invited |
Avinash Khare |
Central University Sikkim |
Critical Phenomenon in the gravitational collapse of charged dust cloud |
| 162 |
B Invited |
Daisuke Kuwahara |
Chubu University |
Study of advanced gas feeding methods for radio-frequency plasma thruster |
| 163 |
B Invited |
Jun-Yi Tsai |
Department of Physics, National Central University |
Dynamical behaviors of defect filaments in Defect-mediated dust acoustic wave turbulence |
| 164 |
B Invited |
Lavkesh Lachhvani |
Institute for Plasma Research, Gandhinagar |
Toroidal Electron Plasma Experiment: SMARTEX-C |
| 165 |
B Invited |
Soumen De Karmakar |
Institute for Plasma Research, Gandhinagar |
Phase transition and emergence of active temperature in an active Brownian
system in under damped background |
| 166 |
B Invited |
Pintu Bandyopathyay |
Institute for Plasma Research, Gandhinagar |
Experiments on the formation and melting of dusty plasma crystals in a
DC glow discharge plasma |
| 167 |
B Invited |
Pawandeep Kaur |
Institute for Plasma Research, Gandhinagar |
Negative entropy-production rate in Rayleigh-Bénard convection in two-dimensional
Yukawa liquids |
| 168 |
B Invited |
Ashwin Joy |
Indian Institute of Technology |
Turbulence in active fluid |
| 169 |
B Invited |
Deuk-Chul Kwon |
National Fusion Research Institute |
Pulsed plasma simulations using the global model for low temperature plasma sources |
| 170 |
B Invited |
Amulya Sanyasi |
Institute for Plasma Research, Gandhinagar |
Observations on Whistler Turbulence Induced Reduced Particle Transport in Large Volume Plasma Device |
| 171 |
B Invited |
X. S Wei |
University of California |
Verification and Validation of Particle Simulation of Turbulent Transport in FRC |
| 172 |
B Invited |
Anshu Verma |
Indian Institute of Technology |
Compact ECR Plasma Source: its Physics and Application |
| 173 |
B Invited |
Akanksha Gupta |
Indian Insitute of Technology |
Inertial waves in two dimensional strongly coupled dusty plasma |
| 174 |
B Invited |
Punit Kumar |
Department of Physics, University of Lucknow, Lucknow-226007 |
Growth of Beam-Plasma Instability in Spin-Polarized Quantum Magnetoplasma |
| 175 |
B Invited |
Kushal Shah |
Indian Institute for Science Education and Research, Bhopal (IISERB) |
Asymptotic solutions of Fokker Planck equations for a periodically driven plasma |
| 176 |
B Invited |
Neeraj Wakde |
Government P. G. College Narsinghgarh, Raigarh, Madhya Pradesh, India |
Zonal Flow Associated with Electron Temperature Gradient Driven Drift Mode in a Linear Magnetized Plasma |
| 177 |
B Invited |
Umesh Kumar |
Institute for Plasma Research |
Flow-fluctuation cycle and confinement in a current-less toroidal device in the presence of two different plasma sources |
| 178 |
B Invited |
Keh-Chyang Leou |
National Tsing Hua University |
Study of Plasma Surface Wave Based Microwave and Photonic Devices |
| 179 |
B Invited |
Devendra Sharma |
Institute for Plasma Research, Gandhinagar |
Kinetic mode 'cloaking' of nonlinear waves in plasmas |
| 180 |
B Invited |
divya singh |
university of delhi |
A study of Intense Lasers and Plasma Interaction |
| 181 |
B Invited |
Shogo Isayama |
Kyushu University |
Dynamic profile formation of the helicon discharge |
| 182 |
B Invited |
Young Dae Yoon |
Pohang Accelerator Laboratory |
Collisionless Magnetic Reconnection: Explaining its Progression via the
Canonical Vorticity Framework and Identifying Stochastic Heating as the
Anomalous Ion Heating Mechanism |
| 183 |
F Plenary |
Gregory Falkovich |
Weizmann Institute of Science |
Singular measure and information capacity of turbulent cascades |
| 184 |
F Plenary |
Cornelius Rampf |
Université Côte d’Azur, Observatoire de la Côte d’Azur, CNRS, Laboratoire
Lagrange, Nice |
Vlasov-Poisson in Cosmology |
| 185 |
F Plenary |
Berengere Dubrulle |
CNRS |
Turbulence Physics around Kolmogorov Scale: Investigation around 5 turbulence enigma |
| 186 |
F Plenary |
Lei Qi |
National Fusion Research Institute |
E×B staircase-like pattern formation in gyrokinetic simulations: a comparison with experiment and reduced models |
| 187 |
F Invited |
Yasuhiro Idomura |
JAEA |
Global Full-f Gyrokinetic Simulations of Isotope Scaling in Ion Temperature Gradient Driven Turbulence |
| 188 |
F Invited |
Yong Xiao |
Institute for Fusion Theory and Simulation, Zhejiang University |
Gyrokinetic Simulation of Isotope Effect on Turbulent Transport in Burning Plasmas |
| 189 |
F Invited |
Guilhem Dif-Pradalier |
CEA, IRFM, F-13108 Saint-Paul-lez-Durance cedex, France |
Transport in Fusion Plasmas: Is the Tail Wagging the Dog? |
| 190 |
F Invited |
Peter Manz |
Max Planck Institute for Plasma Physics |
The key to the I-mode confinement regime |
| 191 |
F Invited |
Robin Heinonen |
University of California San Diego |
Turbulence model reduction by deep learning |
| 192 |
F Invited |
Katsumi Ida |
National Institute for Fusion Science |
Magnetic island as turbulence spreading barrier in toroidal plasma |
| 193 |
F Invited |
Susanna Cappello |
Consiglio Nazionale delle
Ricerche-Consorzio RFX |
Reconnection Processes in 3D pinch configurations |
| 194 |
F Invited |
Carlos Paz-Soldan |
GA |
DIII-D Negative Triangularity Tokamak experoment (tentative) |
| 195 |
F Invited |
Mahendra Kumar Verma |
Indian Institute of Technology Kanpur |
Turbulent energy flux: applications to drag reduction in MHD turbulence and in dynamo |
| 196 |
F Invited |
Alejandro Banon Nava |
Max Planck Institute for Plasma Physics, Germany |
Supra-thermal ions as an effective way to suppress turbulence in modern stellarators like W7-X |
| 197 |
F Invited |
Istvan Pusztai |
Department of Physics, Chalmers University of Technology |
Dynamo in weakly collisional non-magnetized plasmas impeded by Landau damping of magnetic fields |
| 198 |
F Invited |
Rupak Mukherjee |
PPPL |
Pattern formation via asymmetric vortex mergers |
| 199 |
F Invited |
Fumiyoshi Kin |
QST |
Dynamics of heat transport and radial electric field during internal transport barrier formation on JT-60U |
| 200 |
F Invited |
Alf Köhn |
IGVP, University of Stuttgart, Germany |
Plasma electron acceleration in a non resonant microwave heating scheme below the electron cyclotron frequency |
| 201 |
F Invited |
Til Ullmann |
IGVP, University of Stuttgart, Germany |
The effect of resonance manifold shrinking under zonal flow shear at the TJ-K experiment |
| 202 |
F Invited |
Srimanta Maity |
Physics Department, IIT Delhi, Hauz Khas, New Delhi - 110016, India |
Novel equilibrium states for charged micro-particle systems in plasma medium |
| 203 |
F Invited |
Amitava Bhattacharjee |
Princeton Plasma Physics Laboratory and Princeton University |
Simons Collaboration on Hidden Symmetries and Fusion Energy |
| 204 |
F Invited |
Markus Held |
Department of Space, Earth and Environment, Chalmers University of Technology, Gothenburg, Sweden |
Progress in full F gyro fluid theory |
| 205 |
F Invited |
Ding Li |
Institue of Physics, Chinese Academy of Sciences |
The Correct Cuto? Variable for Coulomb Collision in Plasma |
| 206 |
F Invited |
David Pfefferlé |
University of Western Australia |
Why is it so hard to generate 3D MHD equilibria with smoothly nested flux surfaces? |
| 207 |
F Invited |
Xiaocan Li |
Dartmouth College |
Power-Law Generation of Accelerated Particles in 3D Reconnection |
| 208 |
F Invited |
Xiangrong Fu |
New Mexico Consortium |
Parametric decay instability and compressible turbulence in low-beta solar plasmas |
| 209 |
F Invited |
Rameswar Singh |
University of California San Diego |
Zonal flow with noise |
| 210 |
F Invited |
Nengchao Wang |
Huazhong University of Science and Technology |
Recent study on the locked mode physics in J-TEXT |
| 211 |
F Invited |
Eun-jin Kim |
Coventry University, Fluid and Complex Systems Research Centre, Coventry CV1 3BN, United Kingdom |
Time-dependent Probability Density Functions and Information Geometry in the Fusion Low-to-High Confinement Transition |
| 212 |
F Invited |
Chang-Chun Chen |
University of California, San Diego |
Potential Vorticity Mixing in a Tangled Magnetic Field |
| 213 |
F Invited |
Weixing Wang |
Princeton Plasma Physics Lab. |
Gyrokinetic study of plasma transport and global profile evolution in stochastic magnetic fields |
| 214 |
F Invited |
Jianchao Li |
Advanced Energy Research Center, Shenzhen University, Shenzhen, China |
Reduction of sawtooth amplitude by m/n = 2/2 resonant magnetic perturbation in J-TEXT |
| 215 |
F Invited |
Sumin Yi |
National Fusion Research Institute |
A Gyrokinetic Simulation Study of Zonal Flow Amplification in Rotating Tokamak Plasmas |
| 216 |
F Invited |
Patrick Diamond |
University of California San Diego |
Turbulence in a Stochastic Magnetic Field |
| 217 |
F Invited |
Shinya Maeyama |
Nagoya University |
Toward a systematic understanding of multi-scale interactions between ion and electron-scale turbulence |
| 218 |
F Invited |
Ruirui Ma |
Southwestern Institute of Physics |
Global theory of beta-induced Alfv?n eigenmode excited by energetic trapped electrons |
| 219 |
F Invited |
Emanuele Tassi |
CNRS, Laboratoire Lagrange, Observatoire de la Côte d’Azur |
Hamiltonian reduced gyrofluid models |
| 220 |
F Invited |
Gyungjin Choi |
University of California, Irvine, USA |
Excitation and Saturation of Low Frequency Alfven Eigenmodes |
| 221 |
F Invited |
Hiroto Aibara |
Graduate School of Frontier Sciences, The University of Tokyo |
Discrete enstrophy levels and the relaxation process: Self-organization of zonal flow in the view of variational principle |
| 222 |
F Invited |
Weixin Guo |
Huazhong Universtiy of Science and Technology |
A Mean Field Model of the L→H Transition in a Stochastic Magnetic Field |
| 223 |
MF Plenary |
Anthony Donne |
EUROfusion |
Challenges and progress on the path towards fusion energy |
| 224 |
MF Plenary |
Tatsuya Kobayashi |
National Institute for Fusion Science |
Nonlocal transport hysteresis in torus plasmas |
| 225 |
MF Plenary |
John Rice |
MIT PSFC |
Understanding LOC/SOC Phenomenology in Tokamaks |
| 226 |
MF Plenary |
Jong-Kyu Park |
Princeton Plasma Physics Laboratory |
Developing physics basis to optimize 3D-edge long-pulse tokamak scenarios |
| 227 |
MF Plenary |
Chris McDevitt |
University of Florida |
Runaway Electron Generation during Tokamak Disruptions |
| 228 |
MF Topical Plenary |
Kaname Kizu |
National Institutes for Quantum and Radiological Science and Technology (QST) |
Completion of Tokamak Assembly and the Status of Integrated Commissioning for JT-60SA |
| 229 |
MF Topical Plenary |
Jerome Bucalossi |
CEA FRANCE |
Operating a full tungsten actively cooled tokamak: overview of WEST first phase of operation |
| 230 |
MF Topical Plenary |
Andrea Murari |
Consorzio RFX and EUROfusion |
JET Experience in Preparation for the Systematic use of D-T in the Next Generation of Devices |
| 231 |
MF Topical Plenary |
Michael Lehnen |
ITER Organization |
The development of the physics and technology basis for the ITER Disruption Mitigation System |
| 232 |
MF Topical Plenary |
Si-Woo Yoon |
National Fusion Research Institute |
Overview of KSTAR resolving key physics and engineering issues for ITER and beyond |
| 233 |
MF Topical Plenary |
Sebastijan Brezinsek |
Forschungszentrum Juelich |
Plasma-Wall Interaction in the Stellarator W7-X Operating with Graphite Island Divertor |
| 234 |
MF Topical Plenary |
Liang Wang |
Institute of Plasma Physics, Chinese Academy of Sciences |
Progress of divertor and PWI control physics in EAST for steady-state operation in the past 10 years |
| 235 |
MF Topical Plenary |
W. Zhong |
SWIP |
Recent Progress of HL-2A Experiments |
| 236 |
MF Invited |
Minjun J Choi |
National Fusion Research Institute |
The avalanche-like electron heat transport events and their regulation by the shear flow structure |
| 237 |
MF Invited |
Laszlo Bardoczi |
General Atomics |
Bifurcation of Magnetic Islands to a High Temperature State due to Electron Cyclotron Heating in DIII-D |
| 238 |
MF Invited |
Peter Donnel |
EPFL-SPC |
Effect of triangularity and collisionality in global gyrokinetic simulations |
| 239 |
MF Invited |
Justin Ball |
SPC-EPFL |
A local gyrokinetic study of turbulent transport in a negative triangularity DEMO |
| 240 |
MF Invited |
Janghoon Seo |
National Fusion Research Institute |
A gyrokinetic simulation study of impurity effects on turbulence in a tokamak |
| 241 |
MF Invited |
Kairui Fang |
SWIP |
Dynamics of Thermal Turbulence during Non-local Transport in a Gas-puffing Experiment on HL-2A |
| 242 |
MF Invited |
Lothar Schmitz |
University of California Los Angeles |
Shape dependence of L-H transition physics and power threshold in negative and positive triangularity DIII-D plasmas |
| 243 |
MF Invited |
Shinsuke Ohshima |
Institute of Advanced Energy, Kyoto University |
Isotope Effects on Nonlinear Turbulence System in a Torus Plasma |
| 244 |
MF Invited |
Stefano Coda |
EPFL Swiss Plasma Center |
Advances in negative-triangularity tokamak physics in TCV |
| 245 |
MF Invited |
Xiang Liu |
Institute of Plasma Physics, CAS |
Experimental and numerical studies of the scrape off layer power width in EAST |
| 246 |
MF Invited |
Xingquan Wu |
Institute of Plasma Physics, Chinese Academy of Sciences |
A two-dimensional model for the effects of EXB drifts near the divertor target |
| 247 |
MF Invited |
Manni Jia |
Institute of Plasma Physics, Chinses Academy of Sciences |
The effect of edge plasma and impurity fueling on 3D divertor fluxes in the RMP ELM-suppression regime |
| 248 |
MF Invited |
Jianbin Liu |
Institute of Plasma Physics Chinese Academy of Sciences (ASIPP) |
Impact of machine parameters on divertor detachment with ITER-like tungsten divertor in EAST |
| 249 |
MF Invited |
Guizhong Zuo |
ASIPP, Institute of Plasma Physics Chinese Academy of Sciences |
Compatibility between a new LIMIT-style FLiLi and high confinement plasmas in EAST device |
| 250 |
MF Invited |
Daljeet Gahle |
University of Strathclyde |
Bayesian Inference of the Impurity Concentrations and Ion Confinement Times in the TCV Divertor |
| 251 |
MF Invited |
Nami Li |
Dalian University of Technology |
BOUT++ simulations on physical mechanisms for divertor heat flux width broadening |
| 252 |
MF Invited |
Jae-Sun Park |
ITER Organization |
SOLPS-ITER modelling of reference plasmas in the ITER Research Plan |
| 253 |
MF Invited |
Dorothea Gradic |
Max-Planck-Institute for Plasma Physics (Greifswald) |
Inter-machine study of impurity ion and neutral flow dynamics in the SOL of the tokamak ASDEX Upgrade and optimized stellarator Wendelstein 7-X |
| 254 |
MF Invited |
Naomichi Ezumi |
Plasma Research Center, University of Tsukuba |
Recent research progress on plasma detachment in divertor simulation experiment in GAMMA 10/PDX: Role of molecular processes and target configuration |
| 255 |
MF Invited |
Na Wu |
Southwestern Institute of Physics |
Modification of the divertor particle flux induced by a coherent mode in the HL-2A tokamak |
| 256 |
MF Invited |
Suguru Masuaki |
National Institute for Fusion Science |
Studies of reducing divertor heat load in the Large Helical Device |
| 257 |
MF Invited |
Shuyu Dai |
Dalian University of Technology |
Kinetic modelling of ion impact energy and material erosion during edge localized modes on EAST and JET |
| 258 |
MF Invited |
Guosheng Xu |
Institute of Plasma Physics, Chinese Academy of Sciences |
ELM suppression sustained by an edge low-n mode excited by divertor impurity seeding in detached H-mode plasmas in EAST |
| 259 |
MF Invited |
Jaehyun Lee |
National Fusion Research Institute (NFRI) |
Fluctuation Characteristics of Non-ELM Crash Plasmas on KSTAR |
| 260 |
MF Invited |
Tianyang Xia |
Institute of Plasma Physics, Chinese Academy of Sciences |
The simulations on the active ELM control of ELMs on EAST |
| 261 |
MF Invited |
Minwoo Kim |
National Fusion Research Institute |
Study of pedestal parameters in n = 1 RMP ELM-crash control experiments on KSTAR |
| 262 |
MF Invited |
Yifeng Wang |
Institute of Plasma Physics, Chinese Academy of Sciences |
Grassy ELM regime at low pedestal collisionality in high-power tokamak plasma |
| 263 |
MF Invited |
Georg Harrer |
Institute of Applied Physics, TU Wien, Fusion@ÖAW, Vienna, Austria |
Overview of small ELM studies on AUG and TCV |
| 264 |
MF Invited |
Andres Cathey |
Max-Planck Institute for Plasma Physics |
JOREK simulations of multiple type-I ELMs and small ELMs in ASDEX Upgrade |
| 265 |
MF Invited |
Qiming Hu |
Princeton Plasma Physics Laboratory |
Role of edge resonant magnetic field penetration in ELM suppression and density pump-out in the DIII-D tokamak |
| 266 |
MF Invited |
Ricardo Shousha |
Princeton University |
Integrated ELM Control: Project Overview, Results and Plans |
| 267 |
MF Invited |
Jie Wen |
Southwestern Institute of Physics |
Observation of a pedestal quasi-coherent mode with LHCD in type-I ELMy H-mode of the HL-2A tokamak |
| 268 |
MF Invited |
Guo Meng |
IPP Garching |
Effects of the non-perturbative mode structure on energetic particle transport |
| 269 |
MF Invited |
Xiang Zhu |
Shenzhen University |
Experimental observation of three-wave interactions between GAM and KTAEs in EAST tokamak |
| 270 |
MF Invited |
Massimo Nocente |
Universitàdi Milano-Bicocca, Piazza della Scienza, 3 20126 - Milano - Italy |
New fast ion physics routes opened in D-3He plasmas of the Joint European Torus and implications for alpha particle physics studies in deuterium-tritium |
| 271 |
MF Invited |
Alessandro Di Siena |
University of Texas at Austin |
Interplay between energetic particles and microturbulence: New pathways to high-performance discharges |
| 272 |
MF Invited |
Xiaoxi Zhang |
Dalian University of Technology |
Influence of deeply trapped energetic ions on tearing modes |
| 273 |
MF Invited |
Anna Teplukhina |
Princeton Plasma Physics Laboratory |
Features of energetic particle transport in the after-glow phase of the JET plasma discharges |
| 274 |
MF Invited |
Phillip Bonofiglo |
Princeton Plasma Physics Laboratory, Princeton University |
Measurements and Modeling of Fast Ion Losses in JET Deuterium Plasmas in Preparation for DT |
| 275 |
MF Invited |
Tao Wang |
Shenzhen University |
Simulation analysis of reversed shear Alfvén eigenmode dynamics and energetic
particle transport during current ramp-up |
| 276 |
MF Invited |
Alessandro Biancalani |
Max Planck Institute for Plasma Physics, Garching, Germany |
Gyrokinetic investigation of the nonlinear interaction of Alfv?nic modes and turbulence |
| 277 |
MF Invited |
Rui Zhao |
Dalian University of Technology |
Alpha particle ripple loss in CFETR steady-state scenario |
| 278 |
MF Invited |
Vinicius Duarte |
Princeton Plasma Physics Laboratory, Princeton University |
First-principles formulation of resonance broadened quasilinear theory near an instability threshold |
| 279 |
MF Invited |
Robert Hager |
Princeton Plasma Physics Laboratory |
Total-f gyrokinetic simulation of turbulence-RMP interaction in realistic diverted edge geometry |
| 280 |
MF Invited |
C.S. Chang |
Princeton Plasma Physics Laboratory |
Gyrokinetic simulation of tokamak edge physics: present and future |
| 281 |
MF Invited |
Guillaume Fuhr |
Aix-Marseille Universit? |
Flux driven pedestal formation in tokamaks: turbulence simulations validated against the isotope effect |
| 282 |
MF Invited |
Tao Xie |
IFS / University of Texas at Austin |
Direct Gyrokinetic Quasilinear Modeling of Microtearing Transport |
| 283 |
MF Invited |
Zhihong Lin |
University of California, Irvine, USA |
Global gyrokinetic simulation of microturbulence in W7-X and LHD |
| 284 |
MF Invited |
Sehoon Ko |
National Fusion Research Institute |
Global gyrofluid simulation of ITG turbulence with parallel mean velocity shear in a tokamak |
| 285 |
MF Invited |
Joyeeta Sinha |
ITER Organization, Route de Vinon-sur-Verdon, CS 90 046, 13067 St. Paul Lez Durance Cedex, France |
Plasma initiation and synthetic diagnostic development for ITER First Plasma operation. |
| 286 |
MF Invited |
Simon Pinches |
ITER Organization |
The Integrated Modelling and Analysis Suite: Status of development and application to ITER scenarios |
| 287 |
MF Invited |
Jonathan Coburn |
ITER Organization |
Modeling of Plasma Energy Loads and First Wall Material Damage during Disruptions and Vertical Displacement Events on ITER |
| 288 |
MF Invited |
Jeronimo Garcia |
CEA |
Experimental and modeling development at JET for DT preparation and ITER risk mitigation |
| 289 |
MF Invited |
Anshu Liang |
Southwestern Institute of Physics (SWIP) / CEA,IRFM |
Critical velocity shear for triggering L-H transition in the HL-2A tokamak |
| 290 |
MF Invited |
Young-chul Ghim |
Korea Advanced Institute of Science and Technology |
From data-based accelerated neural network model to physics-based neural network without human knowledge: focused on plasma equilibrium reconstruction |
| 291 |
MF Invited |
Wei Zhang |
Institute for Fusion Theory and Simulation, Department of Physics, Zhejiang University, Hangzhou 310027, China |
A review of recent simulation studies of sawteeth with CLT |
| 292 |
MF Invited |
Tong Liu |
Dalian University of Technology |
Identification of multiple eigenmode growth rates towards real-time detection in DIII-D tokamak plasmas |
| 293 |
MF Invited |
Gunsu Yun |
Pohang University of Science and Technology (POSTECH) |
MHD physics in KSTAR uncovered through advanced diagnostics |
| 294 |
MF Invited |
Andreas Kleiner |
PPPL |
Peeling-ballooning modes in low aspect ratio - towards a predictive edge pedestal model for spherical tokamaks |
| 295 |
MF Invited |
Matteo Baruzzo |
ENEA, Frascati, Italy |
MHD stability and Disruption studies in DTT |
| 296 |
MF Invited |
Jeong-hun Yang |
Princeton Plasma Physics Laboratory, Princeton University |
Coupled Tearing and Internal Kink Modes and Their Effect on Fast Ion Transport in NSTX |
| 297 |
MF Invited |
Mattia Siccinio |
EUROfusion |
Alternatives to H-mode for EU-DEMO: what we know and what we need to know |
| 298 |
MF Invited |
Joydeep Ghosh |
Institute for Plasma Research |
Overview of recent experimental results in the ADITYA-U Tokamak |
| 299 |
MF Invited |
Tongnyeol Rhee |
National Fusion Research Institute |
A reduced model for pedestal dynamics and ELM control in tokamak |
| 300 |
MF Invited |
Wilkie Choi |
Princeton Plasma Physics Laboratory |
Understanding the LH synergy for scenario optimization |
| 301 |
MF Invited |
Eun-Hwa Kim |
Princeton University, PPPL |
Physics of simultaneous excitation of electrostatic slow mode and fast waves |
| 302 |
MF Invited |
Wei Zhang |
Max-Planck-Institut f?r Plasmaphysik |
Recent progress in integrated modeling of radio-frequency heating in fusion plasma |
| 303 |
MF Invited |
Dominique Escande |
Aix-Marseille Universit?/CNRS |
Change of paradigm for the reversed field pinch and its impact on fusion science |
| 304 |
MF Invited |
Zheng-Xiong Wang |
Dalian University of Technology |
Simulations of error field penetration in RF dominantly heated plasmas on EAST |
| 305 |
MF Invited |
Nikolas Logan |
Princeton Plasma Physics Laboratory |
Physics Basis for Optimizing 3D Field Coils in Tokamaks |
| 306 |
MF Invited |
Kimin kim |
National Fusion Research Institute |
Impacts of 3D magnetic breaking on confinement and energetic particle transport in KSTAR |
| 307 |
MF Invited |
Oliver Linder |
Max Planck Institute for Plasma Physics, Boltzmannstr. 2, DE-85748 Garching, Germany |
Electron runaway in massive material injection scenarios in ASDEX Upgrade using state-of-the-art generation models |
| 308 |
MF Invited |
Mark Boyer |
Princeton Plasma Physics Laboratory, Princeton University |
Scenario planning in tokamaks using machine learning accelerated models and genetic optimization |
| 309 |
MF Invited |
Siye Ding |
Oak Ridge Associated Universities, Oak Ridge |
A Low Plasma Current (~ 8 MA) Approach for ITER’s Q=10 Goal |
| 310 |
MF Invited |
Jisung Kang |
National Fusion Research Institute |
Progress of high βN steady-state scenario development and its energetic particle modeling in KSTAR |
| 311 |
MF Invited |
Caoxiang Zhu |
PPPL |
Design of a permanent magnet stellarator |
| 312 |
MF Invited |
Francesca Poli |
Princeton Plasma Physics Laboratory |
Integrated Modeling in the ITER era: status, challenges and path forward for the success of ITER |
| 313 |
MF Invited |
J.L. Velasco |
CIEMAT |
KNOSOS, a fast neoclassical code for three-dimensional magnetic configurations: validation and optimization studies |
| 314 |
MF Invited |
Swadesh Mahajan |
Inst. Fusion Studies, University of Texas at Austin |
Elucidating the Physics of Transport Barriers through Theory, Simulation and Experiment |
| 315 |
MF Invited |
Karel van de Plassche |
DIFFER - Dutch Institute for Fundamental Energy Research |
Fast surrogate modelling of turbulent transport in fusion plasmas with physics-informed neural networks |
| 316 |
MF Invited |
Alberto Mariani |
Institute of Plasma Science and Technology, CNR, Milano, Italy |
Analysis of multiscale electron heat transport in JET, AUG and TCV plasmas, confronting experiments with gyrokinetic simulations and reduced models |
| 317 |
MF Invited |
Gakushi Kawamura |
National Institute for Fusion Science |
Transport modeling of LHD peripheral plasma based on multiple measurements with regard to intrinsic/seeded impurities |
| 318 |
MF Invited |
Choongki Sung |
KAIST Nuclear and Quantum Engineering Department |
Heat Transport Study Using Gyrokinetic Analysis in the KSTAR Plasma |
| 319 |
MF Invited |
Min-Gu Yoo |
Princeton Plasma Physics Laboratory |
Understanding of the ohmic breakdown physics in a tokamak by considering the multi-dimensional plasma responses |
| 320 |
MF Invited |
Satoshi Togo |
ITER Organization |
Post-pellet injection plasma transport modelled by the XGC suite of codes |
| 321 |
MF Invited |
Marc Beurskens |
Max-Planck-Institute for Plasma Physics |
Combatting turbulent transport in the Wendelstein 7-X stellarator; a comparison to the ASDEX Upgrade tokamak |
| 322 |
MF Invited |
Pietro Vincenzi |
Consorzio RFX, Padova |
Power balance analysis of JET-ILW L-H transition in Deuterium plasmas |
| 323 |
MF Invited |
Pablo Rodriguez-Fernandez |
Massachusetts Institute of Technology |
On the local nature of cold-pulse experiments in Alcator C-Mod, DIII-D and ASDEX Upgrade |
| 324 |
MF Invited |
Hui Li |
Dalian University of Technology/Southwestern Institute of Physics |
Characteristics of particle transport due to TEM and ITG turbulence in tokamak plasmas |
| 325 |
MF Invited |
Boris Breizman |
Inst. Fusion Studies, Univ. Texas at Austin |
Pellet Physics in Plasmas |
| 326 |
MF Invited |
Pengjun Sun |
Institute of Plasma Physics, Chinese Academy of Sciences |
Experimental study of high-k turbulence during an energy confinement degradation phase in EAST ohmic plasmas |
| 327 |
MF Invited |
Wladimir Zholobenko |
Max Planck Institute for Plasma Physics |
Global simulations of turbulence, transport and shear suppression across edge and SOL of diverted tokamaks |
| 328 |
MF Invited |
Nicola Bonanomi |
Max-Planck-Institut für Plasmaphysik, Boltzmannstraße 2, 85748 Garching, Germany |
Edge turbulent transport towards the L-H transition in ASDEX Upgrade and JET-ILW |
| 329 |
MF Invited |
Jia Li |
Dalian University of Technology |
Quasi-linear heat transport induced by ITG turbulence in the presence of impurities |
| 330 |
MF Invited |
Michael Leconte |
mleconte@nfri.re.kr |
Zonal profile corrugations and staircase formation in edge turbulence: role of the transport crossphase |
| 331 |
MF Invited |
Linge Zang |
Southwestern Institute of Physics |
Phase tracking with Hilbert transform and nonlinear wave-wave coupling analysis on the HL-2A tokamak |
| 332 |
MF Invited |
Ting Long |
Southwestern Institute of Physics |
Study of Phase Dynamics in Turbulent Momentum and Particle Transport in the Edge of HL-2A Tokamak |
| 333 |
MF Invited |
Ming Xu |
Institute of Plasma Physics, Chinese Academy of Sciences |
Experimental observation of the localized coupling between zonal flow and magnetic island in Tokamak plasmas |
| 334 |
MF Invited |
Jun Cheng |
SWIP |
Formation of radially elongated flow in HL-2A H mode plasmas |
| 335 |
MF Invited |
Y. Xu |
SJTU |
Progress in Physical and Engineering Designs for Chinese First Quasi-axisymmetric Stellarator |
| 336 |
L Plenary |
Sudeep Banerjee |
Tata Institute Fundamental Research |
Generation and applications of high-energy x-ray beams from an all-laser driven inverse Compton x-ray source |
| 337 |
L Plenary |
Xiantu He |
Institute of Applied Physics and Computational Mathematics |
The study of hybrid-drive ICF toward ignition |
| 338 |
L Plenary |
Shinsuke Fujioka |
Institute of Laser Engineering, Osaka University |
Fast Isochoric Heating of dense plasma core through multi-picosecond relativistic laser-plasma interaction |
| 339 |
L Plenary |
Dimitri Batani |
University of Bordeaux |
Shock Ignition Inertial Confinement Fusion: basic concepts and progress |
| 340 |
L Plenary |
Ki-Yong Kim |
University of Maryland |
|
| 341 |
L Topical
Plenary |
Patrick Renaudin |
CEA, DAM, DIF |
Overview of the experimental program at LMJ |
| 342 |
L Topical
Plenary |
Liming Chen |
School of Physics and Astronomy, Shanghai Jiao Tong University |
New progress of X/γ ray emission from laser wakefield electron accelerator |
| 343 |
L Topical
Plenary |
Yuqiu Gu |
Science and Technology on Plasma Physics Laboratory, Laser Fusion Research Center, CAEP |
Enhanced energy coupling for indirect-drive fast-ignition fusion targets |
| 344 |
L Topical
Plenary |
Gianluca Sarri |
Queen’s University Belfast |
High-field QED experiments with high-power lasers: current status and next steps |
| 345 |
L Topical
Plenary |
James Sadler |
Los Alamos National Laboratory |
Magnetic and kinetic effects in the hot-spot of inertial confinement fusion implosions |
| 346 |
L Topical
Plenary |
Nicholas Dover |
Kansai Photon Science Institute (KPSI), QST |
Electron heating and ion acceleration in ultrarelativistic laser-solid interactions |
| 347 |
L Topical
Plenary |
Sergey Pikuz |
Russian Academy of Science |
X-ray imaging spectroscopy in laboratory astrophysics studies of complex hydrodynamic phenomena |
| 348 |
L Topical
Plenary |
Amita Das |
Indian Institute of Technology Delhi |
Laser plasma Interaction: new regime with magnetized electrons |
| 349 |
L Topical
Plenary |
Takuo Okuchi |
Okayama University |
Planetology using high-power lasers and XFEL |
| 350 |
L Invited |
DN Gupta |
University of Delhi |
Control and optimization of electron beam characteristics in laser wakefield acceleration in plasmas |
| 351 |
L Invited |
Bruno Albertazzi |
LULI, Ecole Polytechnique |
Modeling in the laboratory the interaction of Supernovae Remnants with Molecular clouds |
| 352 |
L Invited |
Taiwu Huang |
Shenzhen Technology University |
High-flux ultrashort gamma-rays driven by petawatt laser in near-critical density plasmas |
| 353 |
L Invited |
Jinlong Jiao |
Peking University |
Experimental Observation of Ion-Ion Acoustic Instability Associated with
Collisionless Shocks in Laser-produced Plasmas |
| 354 |
L Invited |
Tae Moon Jeong |
ELI-Beamlines |
Study on the Quantum Electrodynamic Phenomena with Femtosecond High Power Laser |
| 355 |
L Invited |
Yanfei Li |
Xi’an Jiaotong University |
Production of highly-polarized positron beams via interaction of ultraintense laser pulses with longitudinally spin-polarized electron beams |
| 356 |
L Invited |
Jianxing Li |
Xi’an Jiaotong University |
Polarized leptons and gamma rays via single-shot laser-electron interaction |
| 357 |
L Invited |
Weimin Wang |
Department of Physics, Renmin University of China |
Guided propagation of extremely intense lasers in plasma via ion motion |
| 358 |
L Invited |
Tao Gong |
Laser Fusion Research Center |
Observation of the energy transport of a fast electron beam in a high-density fast-ignition core |
| 359 |
L Invited |
Feng Wang |
Laser Fusion Research Center |
High space-time diagnostic technology of laser inertial confinement fusion based on Shenguang laser facility |
| 360 |
L Invited |
Yutong Li |
Institute of Physics, Chinese Academy of Sciences |
Diagnostic of forward fast electrons and shied fields using terahertz radiation |
| 361 |
L Invited |
Lihua Cao |
Institute of Applied Physics and Computational Mathematics |
Recent progress in physical modeling of self-generated magnetic fields in laser driven inertial confinement fusion |
| 362 |
L Invited |
Liangliang Ji |
Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences |
Spin effects in strong laser fields and plasma wakefields |
| 363 |
L Invited |
Ming-Wei Lin |
Institute of Nuclear Engineering and Science, National Tsing Hua University |
Development of laser wakefield electron acceleration driven by high-repetition rate ultrafast lasers |
| 364 |
L Invited |
Yao-Li Liu |
Department of Physics, National Central University, Taiwan |
Tomography of High-Harmonic Generation and Direct Phase-Matching Condition Measurement |
| 365 |
L Invited |
Mamiko Nishiuchi |
KPSI, National Institutes for Quantum and Radiological Science and Technology (QST) |
Preferentially Accelerating Heavy Ions over Protons using Petawatt class femtosecond lasers |
| 366 |
L Invited |
Woosuk Bang |
GIST |
Rapid and uniform heating of matter using laser-accelerated ion beams |
| 367 |
L Invited |
Wenjun Ma |
Peking University |
Heavy ions and X-ray/gamma ray generation from ultrathin targets irradiated by multi-peta-watt lasers |
| 368 |
L Invited |
Russell Follett |
University of Rochester, Laboratory for Laser Energetics |
Mitigation of single and multibeam laser plasma instabilities with laser frequency detuning and bandwidth |
| 369 |
L Invited |
Yongpeng Zhao |
National Key Laboratory of Science and Technology on Tunable Laser, Harbin Institute of Technology |
Soft X-ray and EUV lasers pumped by capillary discharge at Harbin Institute of Technology |
| 370 |
L Invited |
Suming Weng |
Shanghai Jiao Tong University |
Plasma optics for high-power laser sciences and inertial confinement fusion |
| 371 |
L Invited |
Tongpu Yu |
Department of Physics, National University of Defense Technology |
Bright atto-second X/γ-rays emission in near-critical-density plasmas driven by Laguerre-Gaussian lasers |
| 372 |
L Invited |
Dong Wu |
Zhejiang University |
Kinetic Simulations for High Energy Density Plasmas |
| 373 |
L Invited |
Huasen Zhang |
Institute of Applied Physics and Computational Mathematics, Beijing |
lan_ke@iapcm.ac.cn |
| 374 |
L Invited |
Yongtao Zhao |
Xi’an Jiaotong University |
Anomalous stopping of laser-accelerated intense proton beam in dense ionized matter |
| 375 |
L Invited |
Ke Feng |
Shanghai Institute of Optics and Fine Mechanics, Chinese Academy of Sciences |
Stable High-quality electron beams from the laser wakefield accelerator at SIOM |
| 376 |
L Invited |
Guoli Ren |
Institute of Applied Physics and Computational Mathematics |
Recent progress of laser-driven spherically convergent plasma fusion neutron source |
| 377 |
L Invited |
Yulong Li |
Research Center of Laser Fusion, China Academic of Engineering and Physics |
Interferometric Velocimetry in Laser Driven Inertial Confinement Fusion Research |
| 378 |
L Invited |
Xinglong Zhu |
Shanghai Jiao Tong University |
Extremely bright GeV gamma-rays from laser-plasma accelerators |
| 379 |
L Invited |
Wenchao Yan |
Shanghai Jiao Tong University |
Inverse Compton X/γ Source Based on Laser Wake-Field Accelerator |
| 380 |
L Invited |
Shigeki Tokita |
Institute of Laser Engineering, Osaka University |
Repeatable DPSS pump laser developments for ultrahigh-average power TW/PW lasers |
| 381 |
L Invited |
Calin Hojbota |
Center for Relativistic Laser Science (CoReLS), Institute for Basic Science |
Generation of high-energy photons and e-e+ pair jets using laser-accelerated electron beams |
| 382 |
L Invited |
Yuchi Wu |
Laser Fusion Research Center |
Micro-spot gamma ray source based on LWFA and its application in high resolution tomography |
| 383 |
L Invited |
Bin Qiao |
Peking University |
Giant isolated attosecond pulses from two-color laser plasma interactions |
| 384 |
L Invited |
Jianxing Li |
Xi’an Jiaotong University |
Lepton polarization effects in ultraintense laser pulses |
| 385 |
L Invited |
Ryutaro Matsui |
Graduate School of Energy Science (GSES), Kyoto University |
Study of the underlying physics of CSBA (Converging Shock-based Blow-off Acceleration) and the extension to two-dimensional rod/string configuration |
| 386 |
L Invited |
Sadaoki Kojima |
Kansai Photon Science Institute (KPSI), QST |
Electromagnetic field growth triggering super-ponderomotive electron acceleration during multi-picosecond laser-plasma interaction |
| 387 |
L Invited |
Taichi Morita |
Kyushu University |
Experimental and numerical studies on the thrust generation for laser-fusion-powered spacecraft |
| 388 |
L Invited |
Akifumi Iwamoto |
National Institute for Fusion Science, National Institutes for Natural Sciences |
Laser fusion subcritical research reactor with J-EPoCH facility |
| 389 |
L Invited |
Zhan Jin |
Department of Quantum Beam Physics, Division of Advanced Materials and Beam Science, The Institute of Scientific and Industrial Research, Osaka University |
Recent Progress in SPring-8 Laser-wakefield Acceleration Platform |
| 390 |
L Invited |
Shunsuke Inoue |
Advanced Research Center for Beam Science, Institute for Chemical Research, Kyoto University |
femtosecond electron pulses driven by intense laser irradiation on foil target and its application |
| 391 |
L Invited |
Kazuki Matsuo |
Center for Energy Research, University of California San Diego / Institute of Laser Engineering, Osaka University |
Experimental studies on thermal transport in magnetized high energy density plasma for fast ignition inertial confinement fusion |
| 392 |
L Invited |
Takayoshi Sano |
Osaka University |
Mitigation of the Richtmyer-Meshkov instability in Plasmas |
| 393 |
L Invited |
Tatiana Pikuz |
Osaka University |
Advanced x-ray imaging diagnostics for HEDP experiment |
| 394 |
L Invited |
Alessio Morace |
Institute of Laser Engineering, Osaka University |
Laser-ion acceleration for Fast Ignition research and applications |
| 395 |
L Invited |
Yoshitaka Mori |
The Graduated School for the Creation of New Photonics Industrie |
Present status of direct heating experiments of counter illuminated imploded core using GXII/LFEX |
| 396 |
L Invited |
Uhei Umeda |
Okayama University |
Shock response and degassing reactions in calcite under hypervelocity planetary collisions |
| 397 |
L Invited |
Yasunobu Arikawa |
Institute of Laser Engineering, Osaka University |
Ultra-fast response neutron detector for inertial confinement fusion |
| 398 |
L Invited |
Angana Mondal |
Tata Institute Fundamental Research |
High-repetition rate relativistic electron generation from micro-droplets
at 10^16W/cm2 |
| 399 |
L Invited |
Ratan Kumar Bera |
Tata Institute Fundamental Research |
Effect of transverse beam size on the wakefields and driver beam dynamics in plasma wakefield acceleration scheme |
| 400 |
L Invited |
Ram Gopal |
Tata Institute Fundamental Research |
Electron acceleration by a transient intense-laser-plasma electrode |
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