Poster
CD-P CD poster core time 16:30-18:40, Sep. 24 [201+202] | 22 | 23 | 24 | 25 | |
| CD-P1 | Riki Matsui(Kyushu University) Development of a numerical code for analyzing the propagation characteristics of fluctuations in fusion edge plasmas | 〇 | 〇 | 〇 | 〇 |
| CD-P2 | Chuang Ren(University of Rochester) Ion-electron temperature equilibration in magnetized collisionless shocks | - | - | 〇 | - |
| CD-P3 | Chang Kai Chai(School of Physical and Mathematical Sciences, Nanyang Technological University) Transition from electrostatic to electromagnetic instabilities in magnetised plasmas | - | - | 〇 | - |
| CD-P4 | Lei Yao(Nagoya University) Turbulence localization in zonal flows in Hasegawa-Wakatani model | - | - | 〇 | - |
| CD-P5 | Yvonne Ban(Nanyang Technological University) Effect of helical perturbations on magnetic braking and neoclassical transport in tokamak plasmas | - | - | 〇 | - |
| CD-P6 | Huang Jingcheng(NTU) Extracting stochastic model for predator-prey dynamic of turbulence and zonal flow with limited data | - | - | 〇 | - |
| CD-P7 | Yi Zhang(Southwestern Institute of Physics) Impact of resonant magnetic perturbation on L-H transition dynamics in HL-2A and HL-3 tokamaks | - | - | 〇 | - |
| CD-P8 | Min Jiang(Southwestern Institute of Physics) Interaction among magnetic island, flow and turbulence and its impact in plasma confinement | - | - | 〇 | - |
| CD-P9 | Eisung Yoon(Ulsan National Institute of Science and Technology) Mode Decomposition Methods for Analyzing Phase Mixing and ITG Dynamics | - | - | 〇 | - |
| CD-P10 | Makoto Sasaki(Nihon University) Trapping and de-trapping bifurcation of drift wave turbulence by zonal flows based on a reduced fluid model | - | - | 〇 | - |
| CD-P11 | Zhihong Lin(University of California, Irvine) Geometry effects on zonal flows and radial electric fields in optimized stellarators | - | - | 〇 | - |
| CD-P12 | Lai Wei(Dalian University of Technology) Effects of RMP on edge–core turbulence spreading and coupling in a tokamak plasma | - | - | 〇 | - |
| CD-P13 | Zeyu Li(General Atomics) Multi-scale Interaction for Edge-Localized-Mode Suppression in the Tokamak Edge | - | - | 〇 | - |
| CD-P14 | Rahul Pandit(Department of Physics, Indian Institute of Science) Large-scale multifractality and non-self-similar energy decay in one-dimensional (1D) Burgers and three-dimensional (3D) Navier-Stokes turbulence | - | - | 〇 | - |
| CD-P15 | Haomin Sun(Ecole Polytechnique Federale de Lausanne (EPFL), Swiss Plasma Center (SPC)) Reducing turbulent transport in tokamaks by combining intrinsic rotation and the low momentum diffusivity regime | - | - | 〇 | - |
| CD-P16 | Justin Ball(Swiss Plasma Center, EPFL) Intrinsic momentum and current drive by almost-rational surfaces in tokamaks | - | - | 〇 | - |
F-P Poster core time 14:00-16:10, Sep. 25 [201+202] | 22 | 23 | 24 | 25 | |
| F-P2 | Shusen Gao(Hiroshima University) Spatiotemporal Emission Spectra from Laser-Produced Tin Plasma in a Hydrogen gas Atmosphere | 〇 | 〇 | 〇 | 〇 |
| F-P3 | Ab Rauoof Wani(Indian Institute of Technology Jammu) Viscoelastic turbulence in strongly coupled plasmas | 〇 | 〇 | 〇 | 〇 |
| F-P4 | Mitsuyoshi Yagyu(Notre Dame Seishin University) On the effect of the magnetic compressibility in microtearing turbulence | 〇 | 〇 | 〇 | 〇 |
| F-P5 | Mizuki Tanaka(the University of Tokyo) Experimental Study of the Influence of External Inflow Drive on Energy Conversion Rate in Guide Field Reconnection | 〇 | 〇 | 〇 | 〇 |
| F-P6 | Shohgo Okazaki(The University of Tokyo) Primary Results of Multi-filter Soft X-Ray Tomography during Counter-Helicity Spheromak Merging | 〇 | 〇 | 〇 | 〇 |
| F-P7 | Jun-Zhong Wen(Department of Physics and Center for Complex Systems, National Central University) Percolation of defect and hopping clusters in the melting transition of two-dimensional Yukawa solids | 〇 | 〇 | 〇 | 〇 |
| F-P8 | Mikhail Mlodik(Princeton University) Drift-energy replacement effect in multi-ion magnetized plasma | 〇 | 〇 | 〇 | 〇 |
| F-P9 | Chang Liu(Harbin Institute of Technology) Study on the coherent structure of drift wave turbulence by eigenmode method | 〇 | 〇 | 〇 | 〇 |
| F-P10 | Shinjiro Takeda(The University of Tokyo) High Energy Electron Measurement in Tokamak Merging Experiments | 〇 | 〇 | 〇 | 〇 |
| F-P11 | Sutapa Samanta(Centre of Plasma Physics- Institute for Plasma Research) Effect of Ion Composition and Ion-Neutral Collisions on the Negative Ion Plasma Sheath with Surface Produced Negative Ions | 〇 | 〇 | 〇 | 〇 |
| F-P12 | Shota Ito(University of Tokyo) PIC Simulation Study of Relaxation Phenomena in Counter-helicity Merging | 〇 | 〇 | 〇 | 〇 |
| F-P13 | Shabbir Ahmad Khan(National Centre for Physics, QAU Campus) Kinetic full wave analysis of EC wave mode conversion by integral operator method | 〇 | 〇 | 〇 | 〇 |
| F-P14 | Minglun Tian(School of Physics, Huazhong University of Science and Technology) Two-dimensional PIC/MCC modeling of inductively coupled plasma: a benchmark study in the GEC configuration | 〇 | 〇 | 〇 | 〇 |
| F-P15 | Koji Kikuchi(Institute of Science Tokyo) Reconsideration of unified electron temperature scale via power-law scaling using nonextensive statistical mechanics | 〇 | 〇 | 〇 | 〇 |
| F-P16 | Yuto Ikeda(Kyushu University) Analysis of plasma turbulence transition phenomena using multipoint correlation analysis | 〇 | 〇 | 〇 | 〇 |
| F-P17 | Riku Ureshino(Kyushu University) Investigation of Nonlinear Dynamics Between Density Gradient and Low Frequency Fluctuation in a Linear Magnetized Plasma | 〇 | 〇 | 〇 | 〇 |
| F-P18 | Seungho Lee(Seoul National Universty) Investigation of Radial Electric Field Effects on Global Neoclassical Transport and Neoclassical Viscosity Torque in Three-Dimensional Magnetic fields | 〇 | 〇 | 〇 | 〇 |
| F-P19 | Takamasa Ogata(Department of Interdisciplinary Engineering, School of Engineering, Kyushu University, Japan) Comparative Study of Ion and Electron saturation Currents for Density Fluctuation Measurements in Linear Magnetized Plasmas | 〇 | 〇 | 〇 | 〇 |
| F-P20 | Gengxian Li(Max Planck Institute for Plasma Physics, Garching) Gyrokinetic electromagnetic simulation of single poloidal harmonic instability | 〇 | 〇 | 〇 | 〇 |
| F-P21 | Zahida Ehsan(Landau-Feynman Lab for Theoretical Physics, CUI Lahore) The Effects of Dust Size Distribution and Dust Charging on Shock Waves in Non-maxwellain Dust in Tokamak Plasma | - | - | - | 〇 |
| F-P22 | Mushtaq Ahmad(International Islamic University Islamabad) Two Streaming Instabilities in Semiconductor Quantum Plasma | - | - | - | 〇 |
| F-P23 | Ningfei Chen(Max-Planck Institute for Plasma Physics) Drift wave soliton formation via zonal flow generation and implication on staircase formation | - | - | - | 〇 |
| F-P24 | Koki Yoshikawa(Department of Physics, Nagoya University) Spatial structure of ETG turbulence-driven effective diffusion and its relations with the trapped electron mode instability | - | - | - | 〇 |
| F-P25 | Masanori Nunami(National Institute for Fusion Science) A comprehensive map of micro-instabilities in multi-species plasmas | - | - | - | 〇 |
| F-P26 | Jawon Jo(Division of Semiconductor Engineering, Myongji University) MD simulations for oscillatory behavior of non-Maxwellian fluid moments in a magnetized plasma | - | - | - | 〇 |
| F-P27 | Shabbir Ahmad Khan(National Centre for Physics, QAU Campus) Kinetic modeling of vortex-type plasma modes carrying orbital angular momentum | - | - | - | 〇 |
| F-P28 | Ling Chen(Purple Mountain Observatory, Chinese Academy of Sciences) Kinetic Alfven Wave (KAW) in nonuniform magnetic plasma atmospheres and its applications | - | - | - | 〇 |
| F-P29 | Muni Zhou(Dartmouth College) Magnetogenesis in collisionless plasma | - | - | - | 〇 |
| F-P30 | Chiara Marchetto(ISC-CNR and Politecnico di Torino) Magnetic reconnection in the presence of magnetic chaos: effects on secondary instability via 3D simulations | - | - | - | 〇 |
| F-P31 | Ozgur Gurcan(CNRS, Laboratoire de Physiqe des Plasmas, Ecole Polytechnique) Phase transition from hydrodynamic turbulence to zonal flows and back | - | - | - | 〇 |
| F-P32 | Tzu-Chi Liu(Institute of Space and Plasma Sciences, National Cheng Kung University) Experimental Verification of Cascade of Electron Entropy in Laboratory Plasma Experiments | - | - | - | 〇 |
| F-P33 | Volodymyr Mykhaylenko(Pusan National University) The nonmodal kinetic theory of the macroscale convective flows of magnetized plasma, generated by the inhomogeneous microturbulence | - | - | - | 〇 |
| F-P34 | Andreas Bierwage(QST) Long-lived density spikes in laser-driven Coulomb explosion folds | - | - | - | 〇 |
| F-P35 | Raffael Düll(M2P2, Aix-Marseille Université) Electromagnetic turbulence simulations in edge plasma with the SOLEDGE3X code | - | - | - | 〇 |
| F-P36 | Fabien Widmer(Max Planck Institute for Plasma Physics) First-Principle Gyrokinetic Simulations of Turbulence-Driven Magnetic Islands in Tokamaks | - | - | - | 〇 |
| F-P37 | Jian Chen(Sino-French Institute of Nuclear Engineering and Technology, Sun Yat-sen University) Observation of Three-dimensional Helical-rotating Plasma Structures in Beam-generated Partially Magnetized Plasmas | - | - | - | 〇 |
| F-P38 | Abhay Ram(Massachusetts Institute of Technology) Quantum computing approach to wave propagation in plasmas | - | - | - | 〇 |
| F-P39 | Jan Weiland(Lehigh University) Nonlinearities in magnetic confinement, ionospheric physics, and population explosion leading to profile resilience | - | - | - | 〇 |
| PL-P2 | Mahendra Verma(Indian Institute of Technology Kanpur) Kolmogorov-like turbulence phenomenology in magnetohydrodynamics | - | - | - | 〇 |
B1-P B1 poster core time 16:30-18:40, Sep. 25 [201+202] | 22 | 23 | 24 | 25 | |
| B1-P1 | Tatsushi Yano(Osaka Metropolitan University) Unsteady evaluation method of heat flux on plasma-irradiated targets from long-discharge plasmas and accurate consideration of cooling effects | 〇 | 〇 | 〇 | 〇 |
| B1-P2 | Yao Wang(Harbin Institute of Technology) Research of plasma multi-color imaging diagnosis based on metasurface | 〇 | 〇 | 〇 | 〇 |
| B1-P3 | Hayato Kawazome(Department of Information Technology, National Institute of Technology (KOSEN), Kagawa college) Numerical study of He I 1s1S-2p1P radiation trapping in high-ambient gas pressure thermal arc plasma | 〇 | 〇 | 〇 | 〇 |
| B1-P4 | Tomohide Suetsugu(Kyushu University) Measurement of spatial structures of fluctuations during the startup of tokamak plasmas in the PLATO tokamak by HIBP | 〇 | 〇 | 〇 | 〇 |
| B1-P5 | Ryusuke Hamada(Hiroshima University) Self-absorption of He resonance line outside of the plasma | 〇 | 〇 | 〇 | 〇 |
| B1-P7 | Hong Wang(school of Physics, Anshan Normal University) Simulation of device in low density plasma: From spacecraft to dust particle | 〇 | 〇 | 〇 | 〇 |
| B1-P8 | Woongil Ji(Korea Advanced Institute of Science and Technology) Electrostatic PIC simulation of low temperature plasma in cusp-shaped magnetic field for deuterium ion source | 〇 | 〇 | 〇 | 〇 |
| B1-P9 | Harune Sekido(Institute for Space-Earth Environmental Research, Nagoya University) Correction of Numerical Errors at Current Sources in Explicit Finite-Difference Time-Domain Method for Plasma Kinetic Simulations | 〇 | 〇 | 〇 | 〇 |
| B1-P10 | Xinyu Ge(ISEE) Suppressing numerical errors in higher-order Finite-Difference Time-Domain methods | 〇 | 〇 | 〇 | 〇 |
| B1-P11 | Nitish Ghosh(Indian Institute of Technology Roorkee) A detailed collisional radiative model for Ti plasma | 〇 | 〇 | 〇 | 〇 |
| B1-P12 | Jin Wook Kang(KAIST) Calculation of two-dimensional electromagnetic fields in a Cylindrical Inductively Coupled Plasma | 〇 | 〇 | 〇 | 〇 |
| B1-P13 | Emi Narita(Kyoto University) Empirical transport modeling for the edge region of H-mode plasmas for integrated simulations | 〇 | 〇 | 〇 | 〇 |
| B1-P14 | Yuita Shirasawa(NTT Space Environment and Energy Laboratories) Identification of reduced-order models by sparse regression with oracle property | 〇 | 〇 | 〇 | 〇 |
| B1-P15 | Kun-Han Lee(National Center for High-performance Computing, NIAR) Development of Digital Twin for Taiwan’s First Spherical Tokamak (FIRST): Simulation, Diagnostics, and Integration Framework | 〇 | 〇 | 〇 | 〇 |
| B1-P16 | Suho Kim(Department of Physics and Photon Science, GIST) Correction of Beam Deflection Effects in Interferometry for Near-critical Density Plasma Diagnostics | 〇 | 〇 | 〇 | 〇 |
| B1-P17 | Pengze Xiao(Huazhong University of Science and Technology) Numerical Simulation of Thermally Sustained Micro Discharge at Atmospheric Pressure by PIC/MCC-DSMC Coupled Method | 〇 | 〇 | 〇 | 〇 |
| B1-P18 | Hua-Sheng Xie(ENN Science and Technology Development Co., Ltd) Efficient Approaches to Solve Plasma Dispersion Relations with Arbitrary Distributions | 〇 | 〇 | 〇 | 〇 |
| B1-P19 | Zijie Liu(Institute of Energy, Hefei Comprehensive National Science Center) Plasma electron density profile tomography for EAST based on integrated data analysis | 〇 | 〇 | 〇 | 〇 |
| B1-P21 | Donato Di Matteo(KYUSHU UNIVERSITY) Heat and particle fluxes estimation method involving measurements of radial electric field by using ball-pen probe array in linear magnetized plasmas | 〇 | 〇 | 〇 | 〇 |
| B1-P22 | Alexandre Bambina(Seikei University) Application of graph theory for argon plasma chemistry with excited level transitions. | 〇 | 〇 | 〇 | 〇 |
| B1-P23 | Yen-Lin Chen(National Tsing Hua University Department of Engineering and System Science) Development of Ka-band Reflectometer and Integrated Circuit using GaN process for plasma diagnostics | 〇 | 〇 | 〇 | 〇 |
| B1-P24 | Wataru Kikuchi(Institute of Science Tokyo) Spectroscopic Measurement of Atmospheric-pressure Non-equilibrium Ar Plasma Based on Line Spectra under Constraints of Undetected Level Densities | 〇 | 〇 | 〇 | 〇 |
| B1-P25 | Shui Hu(National Yang Ming Chiao Tung University) Broadband MMIC designs for millimeter-wave plasma diagnostics | 〇 | 〇 | 〇 | 〇 |
| B1-P26 | Andrea Loreti(United Kingdom Atomic Energy Authority (UKAEA)) Foundation Models for Structured Knowledge and Predictive Modelling in Nuclear Fusion Research | 〇 | 〇 | 〇 | 〇 |
| B1-P27 | Xingpeng Wang(School of Physics, Huazhong University of Science and Technology) Two-Dimensional PIC/MCC Simulation of EUV-Induced Argon Plasma: Cumulative Effects under Repetitive Pulsed Irradiation | 〇 | 〇 | 〇 | 〇 |
| B1-P28 | Seongbin Hong(Pohang University of Science and Technology) Ion Cyclotron Emission Driven by Helium Beam Injection as a Surrogate for Alpha Particle Diagnostics in LHD | 〇 | 〇 | 〇 | 〇 |
| B1-P29 | Sunjung Kim(Department of Astronomy and Space Science, Kyung Hee University) GPU-Accelerated, Energy-Conserving Full and Hybrid PIC Simulations for Space and Astrophysical Plasmas | 〇 | 〇 | 〇 | 〇 |
| B1-P30 | Ryu Ichikawa(Kyoto University) Data-Assimilation-Based Tokamak Plasma Prediction System | 〇 | 〇 | 〇 | 〇 |
| B1-P31 | Lorenzo Zanisi(UKAEA) Neural surrogates of core turbulent transport | 〇 | 〇 | 〇 | 〇 |
| B1-P32 | Longyong Liao(The Graduate University for Advanced Studies, SOKENDAI) A study of deuterium-deuterium fusion-born triton burnup in various plasma currents at EAST tokamak | 〇 | 〇 | 〇 | 〇 |
| B1-P33 | Tzu-Chi Liu(Institute of Space and Plasma Sciences, National Cheng Kung University) Development of Electron Cyclotron/Bernstein Emission Radiometer for FIRST Spherical Tokamak | 〇 | 〇 | 〇 | 〇 |
| B1-P34 | Shengyu Wang(Dept. Complexity Science and Engineering, Grad. School of Frontier Sciences ,The University of Tokyo) Investigation of Hard X-Ray emission in Lower Hybrid Wave Experiments on the TST-2 Spherical Tokamak | - | - | - | 〇 |
| B1-P35 | Seongmin Choi(Korea Advanced Institute of Science and Technology) Development of a Virtual FVC System and Forward Model for Shattered Pellet Injection Tracking in KSTAR | - | - | - | 〇 |
| B1-P36 | Ying Hao Matthew Liang(Agency for Science, Technology and Research (A*STAR)) Conceptual design of a Doppler Backscattering diagnostic for the EXL-50U spherical tokamak | - | - | - | 〇 |
| B1-P37 | Valerian Hall-Chen(FEAT SRTT, A*STAR) DBS measurements of turbulence spectra in Bouncing Ball DIII-D plasmas | - | - | - | 〇 |
| B1-P38 | Sumin Yi(Korea Institute of Fusion Energy) Turbulence simulation with a bounce-averaged kinetic electron model in general tokamak geometry | - | - | - | 〇 |
| B1-P39 | Rui Costa(UKAEA) Towards visualizing multi-dimensional gyrokinetic simulation data | - | - | - | 〇 |
| B1-P40 | Bharat Hegde(Institute for Plasma Research) Laser Induced Breakdown Spectroscopy (LIBS) based wall monitoring diagnostic for ADITYA-U tokamak | - | - | - | 〇 |
| B1-P41 | Eiichiroou Kawamori(Institute of Space and Plasma Sciences, National Cheng Kung University) Experimental Plan for Measuring Fluctuations in the Velocity Distribution Function of Relativistic Electrons Using Electron Cyclotron Emission Spectra in the Spherical Tokamak FIRST | - | - | - | 〇 |
| B1-P42 | Takayuki Umeda(Hokkaido University) New integrator for relativistic equations of motion for charged particles | - | - | - | 〇 |
| B1-P43 | Yong Cao(Harbin Institute of Technology) A Generalized External Circuit Model for high order Electrostatic IFE-PIC codes | - | - | - | 〇 |
| B1-P44 | Yanzeng Zhang(University of Science and Technology of China) Similarity for downscaled kinetic simulations of electrostatic plasmas: Reconciling the large system size with small Debye length | - | - | - | 〇 |
| B1-P45 | Yuan-Yao Chang(Institute of Space and Plasma Sciences, National Cheng Kung University) Development of calibration method of electron cyclotron emission radiometer for optically-thin magnetized plasma | - | - | - | 〇 |
| B1-P46 | Deepika Behmani(Indian Institute of Technology Kanpur) Flow field dynamics in an atmospheric pressure plasma jet: A tale of turbulence and transition | - | - | - | 〇 |
| B1-P47 | Dinkar Mishra(University of Lucknow) Twisted THz generation via LG laser pulse in magnetized plasma | - | - | - | 〇 |
| B1-P48 | Shimin Yu(School of Electrical and Electronic Engineering, Huazhong University of Science and Technology & Chair of Applied Electrodynamics and Plasma Technology, Ruhr University Bochum) Impedance matching of pulse modulated capacitively coupled plasmas | - | - | - | 〇 |
| B1-P49 | Ryota Yoneda(NTT Space Environment and Energy Laboratories) Offline Reinforcement Learning by Decision Transformer for Tokamak Plasma Control | - | - | - | 〇 |
| B1-P50 | Kotaro Fujii(Nagoya University) Causal relationship from multivariate time series and dominant scale for ITG turbulent transport | - | - | - | 〇 |
| B1-P51 | Shan Wei(Shanghai Jiao Tong University) Three-dimensional Radiation Reconstruction Based on X-ray Imaging via Convolutional Neural Network | - | - | - | 〇 |
| B1-P52 | Chengshuo Shen(Huazhong University of Science and Technology) Transferable and interpretable disruption prediction based on physics-guided machine learning | - | - | - | 〇 |
| B1-P53 | Sukma Wahyu Fitriani(Kyushu University) Predicting Plasma-Deposited Thin Film Properties Using Machine Learning based on Optical Emission Spectroscopy | - | - | - | 〇 |
| B1-P54 | Seiji Zenitani(Space Research Institute, Austrian Academy of Sciences) High-accuracy particle integrators for particle-in-cell (PIC) simulation | - | - | - | 〇 |
| B1-P55 | Naoki Tamura(Max-Planck Institute for Plasma Physics) Plasma Diagnostics and Control with Tracer Encapsulated Solid Pellet (TESPEL) in Magnetically Confined High-Temperature Plasmas | - | - | - | 〇 |
| B1-P56 | Jia Han(University of California Los Angeles) X Ray Diagnostics for high energy electrons using Tungsten Pellets | - | - | - | 〇 |
| B1-P57 | Shiyang Liu(Zhejiang University) Development of the Gyrokinetic-MHD Hybrid Code cuGMEC and Its Nonlinear Simulations of Alpha Particle-driven Alfvén Eigenmodes in ITER | - | - | - | 〇 |
| B1-P58 | Wei Zhang(Institute for Fusion Theory and Simulation, School of Physics, Zhejiang University) Strong toroidal electric field generation during sawtooth crashes | - | - | - | 〇 |
| B1-P59 | Nikolay Britun(Center for Low-temperature plasma sciences) Emission and absorption-based plasma diagnostic techniques for number density detection: Basics and Examples | - | - | - | 〇 |
| B1-P60 | Nitesh Bhatia(United Kingdom Atomic Energy Authority) Visualising Fusion: Connecting Data, Design, and Discovery | - | - | - | 〇 |
| B1-P61 | Yue Yu(Institute of Plasma Physics, Chinese Academy of Sciences) Real-Time Detachment Forecaster: Decoding X-Point Radiation in Impurity-Seeded Plasmas | - | - | - | 〇 |
| B1-P62 | Mitsuru Honda(Graduate School of Engineering, Kyoto University) Transport model surrogates via Gaussian process regression | - | - | - | 〇 |
| B1-P63 | Aaro Järvinen(VTT) Towards scalable large-scale model validation with data science | - | - | - | 〇 |
| B1-P64 | Adam Kit(VTT, Technical Research Centre of Finland) On Physics-Data Generative Modeling for Core-Edge Integration in Tokamaks | - | - | - | 〇 |
| B1-P65 | Daniel Zuhayra(Christian-Albrechts-University Kiel DE) A combination sensor for the diagnostic of particle and energy fluxes in process plasmas | 〇 | 〇 | 〇 | 〇 |
| PL-P6 | Brendan Lyons(General Atomics) Pulse Design and Digital Twin Capabilities of the FUSE Integrated-Modeling Framework | - | - | - | 〇 |
B2-P B2 poster core time 12:00-14:05, Sep. 25 [201+202] | 22 | 23 | 24 | 25 | |
| B2-P12 | Wei-Shuo Lo(Department of Physics, National Central University) Dynamical behaviors of topological defects of thermal phonons in 2D dusty plasma crystals | 〇 | 〇 | 〇 | 〇 |
B2-P B2 poster core time 16:30-18:40, Sep. 25 [201+202] | 22 | 23 | 24 | 25 | |
| B2-P1 | Yu Takehiro(Hiroshima university) Amplitude of spontaneous emission of 112-nm Al3+ ion 3s-3p transition in neon-like aluminum laser plasma | 〇 | 〇 | 〇 | 〇 |
| B2-P2 | Kiyoyuki Yambe(Niigata University) Multi-Layer Flow Structure Formed by Interaction of Plasma and Neutral Gas | 〇 | 〇 | 〇 | 〇 |
| B2-P3 | Yuto Kambara(Hiroshima University) Development of plasma window for electron beam welding in atmosphere | 〇 | 〇 | 〇 | 〇 |
| B2-P4 | Kosei Iguchi(Kyushu University) Evaluation of Charge of Microparticles in Plasma Using Optical Tweezers | 〇 | 〇 | 〇 | 〇 |
| B2-P5 | Rupali Paul(Centre of Plasma Physics,Institute for Plasma Research) Stochastic dust charging in multicomponent plasmas: Impact of energetic electron populations on charge fluctuations | 〇 | 〇 | 〇 | 〇 |
| B2-P6 | Niranjan Gogoi(Department of Physics, Tezpur University) Theoretical Study of Dust Correlation Effects on Dust Density Waves in Presence of Streaming Magnetized Background Ions | 〇 | 〇 | 〇 | 〇 |
| B2-P7 | Sumit Singha(Centre of Plasma Physics Institute for Plasma Research) Investigation of helium plasma stream dynamics across transverse magnetic field in Pulsed Plasma Accelerator | 〇 | 〇 | 〇 | 〇 |
| B2-P8 | Pragya Joshi(Indian Institute of Technology Delhi) Influence of a Floating Chamber Wall on Plasma Diffusion in a Filament-Heated DC Discharge | 〇 | 〇 | 〇 | 〇 |
| B2-P9 | Huiwon Chung(Seoul National University) Experimental Measurement of Nonlinear Energy Transfer in PANTA | 〇 | 〇 | 〇 | 〇 |
| B2-P11 | Donatella Fiorucci(ENEA, Research Center Frascati) Photo-neutralization-based NBI systems for Nuclear Fusion Power Plants | - | - | - | 〇 |
| B2-P13 | Aohua Mao(Harbin Institute of Technology) Structure characteristics of three-dimensional asymmetric magnetic reconnection in SPERF-AREX experiments | - | - | - | 〇 |
| B2-P14 | Kenichi Nagaoka(National Institute for Fusion Science) Negative-ion-meniscus response to RF perturbation in an injector-scale negative-ion source | - | - | - | 〇 |
| B2-P15 | Ramesh Narayanan(Indian Institute of Technology Delhi) Exploring the Potential of an ECR Source for Large-Area Hydrogen Negative Ion Production in Fusion Applications | - | - | - | 〇 |
| B2-P16 | Sanat Kumar Tiwari(Indian Institute of Technology Jammu) Turbulence characteristics in dusty plasma | - | - | - | 〇 |
| B2-P17 | Daiki Nishimura(National Institute for Fusion Science) Rotational movement analysis for cylindrical plasma images obtained with tomography | - | - | - | 〇 |
| PL-P4 | Edward Thomas(Auburn University) Magnetization of electrons and ions and their influence on dusty plasmas | - | - | - | 〇 |
A1-P Poster core time 14:00-16:10, Sep. 25 [201+202] | 22 | 23 | 24 | 25 | |
| A1-P1 | Masaharu Shiratani(Kyushu University) Kyushu University’s Latest Initiatives in EUV Light Source Development for Semiconductor Technology | 〇 | 〇 | 〇 | 〇 |
| A1-P2 | Kazuaki Shimpo(Department of Physics and Electronics, Osaka Metropolitan University) Numerical Simulation of Methylene Blue Decomposition using a Microplasma Contactor | 〇 | 〇 | 〇 | 〇 |
| A1-P3 | Yuto Yonehara(department of electrical and electronic Engineering, meijo university) Effect of substrate on growth of nitrogen doped diamond film with plasma enhanced chemical vapor deposition | 〇 | 〇 | 〇 | 〇 |
| A1-P4 | Shumpei Ohara(Graduate School and Faculty of Information Science and Electrical Engineering, Kyushu University) Effects of Precursor Gas Molecules on the Deposition Properties of Hydrogenated Amorphous Carbon Films by Plasma Chemical Vapor Deposition | 〇 | 〇 | 〇 | 〇 |
| A1-P5 | Kazuki Nagamine(Kyushu University) Effects on Film Properties Caused by He addition to Ar/C2H2 PECVD | 〇 | 〇 | 〇 | 〇 |
| A1-P6 | Koji Kuroda(Department of Physics and Electronics, Osaka Metropolitan University) dV/dt Dependence of Characteristics of Surface-Launched Plasma Bullet - A Study up to 356 kV/µs using SiC MOS FETs- | 〇 | 〇 | 〇 | 〇 |
| A1-P7 | Shinjiro Ono(Kyushu University) Suppression of Compressive Stress in Hydrogenated Amorphous Carbon Films Using Carbon Nanoparticle-Embedded Sandwich Structures | 〇 | 〇 | 〇 | 〇 |
| A1-P8 | Manato Eri(Kyushu University) Analysis of hydrocarbon dissociation processes in CXHY+Ar plasma by quadrupole mass spectrometry | 〇 | 〇 | 〇 | 〇 |
| A1-P9 | Hyunil Benjamin Kim(Gwangju Institute of Science and Technology(GIST)) Enhancement of radical uniformity in CCP using a Rogowski electrode and spatial analysis via OES | 〇 | 〇 | 〇 | 〇 |
| A1-P10 | Wei Jiang(Huazhong Univeristy of Science and Technology) Multi-Solution Impedance Matching in Capacitively Coupled Plasma | 〇 | 〇 | 〇 | 〇 |
| A1-P11 | Heng Liu(Beihang University) Mechanism of constriction in a high frequency pulsed welding arc plasma | 〇 | 〇 | 〇 | 〇 |
| A1-P12 | Shakhzod Tojiev(Institute of Material Sciences, Academy of Sciences) Enhancement of Photocatalytic Activity of ZnO Nanoparticles via Non-Thermal Plasma | 〇 | 〇 | 〇 | 〇 |
| A1-P13 | Si Li(School of Physics, Dalian University of Technology) Vibration and rotation temperature distributions optimization of microwave plasma jet in atmospheric pressure | 〇 | 〇 | 〇 | 〇 |
| A1-P14 | Duksun Han(Korea Institute of fusion energy) Lithium isotopes abundance analysis in liquid phase by laser-produced vapor for laser-induced breakdown spectroscopy | 〇 | 〇 | 〇 | 〇 |
| A1-P15 | Hakseung Lee(SKKU (Sungkyunkwan University)) Low Temperature Etching of Silicon Oxide and Silicon Nitride using Ar/CF4 Plasma | 〇 | 〇 | 〇 | 〇 |
| A1-P16 | Kanata Okamoto(Department of Electrical and Electronic Engineering, Meijo University) Plasma reduction of iron phthalocyanine-supported graphene oxide | 〇 | 〇 | 〇 | 〇 |
| A1-P17 | Taketo Nagata(Department of Electrical and Electronic Engineering, Meijo University) Low-temperature deposition of IGZO using high-power impulse magnetron sputtering | 〇 | 〇 | 〇 | 〇 |
| A1-P18 | Tomoki Iwata(Department of Electrical and Electrical Engineering, Meijo University) Incorporation of nitrogen to gallium oxide film on mist chemical vapor deposition | 〇 | 〇 | 〇 | 〇 |
| A1-P19 | Tsukasa Irie(Department of Electrical and Electronic Engineering, Meijo University) Effect of plasma treatment on iron azaphthalocyanine-supported carbon materials | 〇 | 〇 | 〇 | 〇 |
| A1-P20 | Daiki Horikawa(Meijo University) Formation of high electron mobility indium oxide film by high-power impulse magnetron sputtering | 〇 | 〇 | 〇 | 〇 |
| A1-P21 | Arunsinh Bakulsinh Zala(NSSE, National Institute of Education, Nanyang Technological University) α-Alumina Synthesis at Room Temperature Using a Plasma Focus Device for Fusion Blankets | - | - | - | 〇 |
| A1-P22 | Monika Verma(Delhi Technological University) Effect of Plasma Process Parameters on the Electrical Characteristics of Dual-Gate Graphene Field-Effect Transistors | - | - | - | 〇 |
| A1-P23 | Abhijit Mishra(Indian Institute of Technology Jodhpur) Variations in Discharge Characteristics of Bipolar Pulsed Cold Atmospheric Plasma Jets Induced by Liquid Conductivity | - | - | - | 〇 |
| A1-P24 | Shikha Pandey(Indian Institute of Technology Jodhpur) Environmental Friendly Wastewater Treatment through Non-Thermal Plasma: Mechanistic Insights into Dye Degradation | - | - | - | 〇 |
| A1-P25 | Soon Han Bryan Teo(Australian National University) Impact of alloying and exposure temperature on He retention and He thermal dynamics in W-based materials | - | - | - | 〇 |
| A1-P26 | Hiroharu Kawasaki(National Institute of Technology, Sasebo College) Trial of elemental gradient functional thin films preparation by sputtering with mixed powder targets III | - | - | - | 〇 |
| A1-P27 | Tamiko Ohshima(Nagasaki University) Single cathode combinatorial deposition using powder target by sputtering process | - | - | - | 〇 |
| A1-P28 | Osamu Sakai(The University of Shiga Prefecture) Complex network in low-temperature plasma analyzed by Shannon entropy | - | - | - | 〇 |
| A1-P29 | Masanori Shinohara(Fukuoka University) Direct graphene growth on Si surface with high power pulsed plasma | - | - | - | 〇 |
| A1-P30 | Shota Nunomura(National Institute of Advanced Industrial Science and Technology) Radical, ion, and photon’s effects on material damage in plasma etching | - | - | - | 〇 |
| A1-P31 | Deepak Prasad Subedi(Dept. of Physics, School of Science, Kathmandu University) Atmospheric Pressure Plasma and its Application for Surface Treatment of Materials | - | - | - | 〇 |
| A1-P32 | Hui Jiang(National Key Laboratory of Power Transmission Equipment Technology, School of Electrical Engineering, Chongqing University) Developments and Interactions of the Channels in Surface Dielectric Barrier Discharge | - | - | - | 〇 |
| A1-P33 | Tzu-Ying Lin(Department of Materials Science and Engineering, National Tsing Hua University) Plasma-Assisted Surface Modification on TiNb2O7 Anode for High-Rate Lithium-Ion Battery | - | - | - | 〇 |
| A1-P34 | Toru Sasaki(Nagaoka University of Technology) Curing Process of Electrically Conductive Adhesives and Formation of Resistant Coatings using Atmospheric Pressure Plasma | - | - | - | 〇 |
| PL-P5 | Ramses Snoeckx(Empa, Swiss Federal Laboratories for Materials Science and Technology) Electrons, kinetics, and entropy: unlocking the full potential of plasma-based gas conversion | - | - | - | 〇 |
A2-P A2 poster core time 14:00-16:10, Sep. 25 [201+202] | 22 | 23 | 24 | 25 | |
| A2-P1 | Syon Bhattacharjee(Delhi Public School Kalyanpur, Kanpur) Cold atmospheric pressure micro-plasma jet in a transverse magnetic field : effect of field induced plasma water activation on seedling growth | 〇 | 〇 | 〇 | 〇 |
| A2-P2 | Heping Shi(Kyushu University) Visualization of Two-Dimensional Colorimetric Reactions of Reactive Oxygen Species Using KI-Starch Reagent | 〇 | 〇 | 〇 | 〇 |
| A2-P3 | Zita Nauciene(Vytautas Magnus University) The effects of different gas phase composition low-pressure plasma treatment of red clover (Trifolium pratense) seeds on seed germination and morphological parameters of seedlings | 〇 | 〇 | 〇 | 〇 |
| A2-P4 | Rukhsora Akramova(Institute of Fundamental and Applied Research, National Research University TIIAME) Selective Disruption of E-Cadherin–E-Cadherin Interactions in Inflammatory Breast Cancer Using Cold Atmospheric Plasma | 〇 | 〇 | 〇 | 〇 |
| A2-P5 | Yang Xiao(School of Physics, Dalian University of Technology) Research on Plasma Modified Fluoroether based Anesthesia Exhaust Gas Adsorption Materials | 〇 | 〇 | 〇 | 〇 |
| A2-P6 | Hibiki Otobe(Kyushu University) Development of a Method for CO Production from Air Using Ionic Liquids and Low-Temperature Plasma | 〇 | 〇 | 〇 | 〇 |
| A2-P7 | So Takamine(Kyushu University) Evaluation of rice seed coat penetration characteristics of plasma-generated long-lived reactive oxygen species using the KI Starch method | 〇 | 〇 | 〇 | 〇 |
| A2-P8 | Sushma Jangra(Phd Scholar, Indian Institute of Technology Jodhpur) Optimization of Cold Atmospheric Pressure Plasma for Enhanced Nitrogen Species Generation in Soil to Improve Fertility and Wheat Crop Yield | - | - | - | 〇 |
| A2-P9 | Ritesh Mishra(Indian Institute of Technology Jodhpur) Cold Plasma-Assisted Pectin Extraction from Dragon Fruit Peels: A Novel Approach to Enhance Film Mechanical Properties | - | - | - | 〇 |
| A2-P10 | Ahmed Khacef(GREMI, CNRS-Université d'Orléans) Cold Plasma Technology for the Prevention of Postharvest Grain Losses | - | - | - | 〇 |
| A2-P11 | Santosh Dhungana(Tribhuvan University) Plasma-activated water (PAW) from a customized power system: generation, analysis, and plant growth enhancement | - | - | - | 〇 |
| A2-P12 | Quoc An Ha Than(Institute of Advanced Technology, Vietnam Academy of Science and Technology) The Impact of Plasma Activated Seawater on Postharvest Sea Grapes Caulerpa lentillifera | - | - | - | 〇 |
| A2-P13 | Duc Ba Nguyen(Duy Tan University) Role of liquid dielectric and its application for developing a dielectric barrier discharge configuration for cold plasma jet generation | - | - | - | 〇 |
| A2-P14 | Hirofumi Kurita(Toyohashi University of Technology) Enhancement of cell death by combination of cold atmospheric plasma irradiation and pulsed electric field application | - | - | - | 〇 |
| A2-P15 | Masafumi Jinno(Ehime University) Electrical Equivalent Circuit Network-Based Study of Programmed Cell Death Induced by Plasma-Injected Electric Energy | - | - | - | 〇 |
| A2-P16 | Bhargavi Sharma(Department of Biotechnology, Delhi Technological University) Dielectric Modulated Triple Metal- Plasma Assisted - Carbon Nanotube Field Effect Transistor (TM-PA-CNTFET) Biosensor for Detection of Various Biomolecules | - | - | - | 〇 |
| A2-P17 | Jalaj Jain(Comisión Chilena de Energía Nuclear) Ultra high-dose rate X-ray pulses emitted from a kilojoule plasma focus device induce larger cancer cell deaths than the conventional X-ray irradiation: Preliminary single dose and fractionation studies | - | - | - | 〇 |
| A2-P18 | Kazuo Shimizu(Shizuoka University) Application of Atmospheric Microplasma for Nose to Brain Drug Delivery | - | - | - | 〇 |
| A2-P19 | Yoshihisa Ikeda(Ehime-University) Microplasma Stimuli for Efficient Molecular Introduction and Physiological Activation in Plants | - | - | - | 〇 |
| A2-P20 | Michihiko Nakano(Kyushu University) Novel biological indicator using DNA-labeled microbeads for evaluating nonthermal plasma sterilization | - | - | - | 〇 |
L1-P L1 poster core time 14:00-16:10, Sep. 23 [201+202] | 22 | 23 | 24 | 25 | |
| L1-P1 | Yuka Doke(The University of Tokyo) Experimental Study of Solar Flare Mechanism by Use of Torus Plasma Merging | 〇 | 〇 | 〇 | 〇 |
| L1-P2 | Kaichi Iida(The University of Osaka) Development of a Diagnostic Method for Non-Equilibrium Plasma Using Thomson Scattering | 〇 | 〇 | 〇 | 〇 |
| L1-P3 | Zuolin Ma(School of Physics and Astronomy, Beijing Normal University) Impact Pressure Shaping Plasma Jets and Affected by High-metallicity | 〇 | 〇 | 〇 | 〇 |
| L1-P4 | Tatiana Pikuz(Osaka University) Investigation of the role of radial extrusion on the formation of high-aspect ratio nanocavities in condensed matter by XFEL | 〇 | 〇 | 〇 | 〇 |
| L1-P5 | Yuki Amano(ISAS/JAXA) A Laboratory plasma experiment for application to X-ray astronomy using a compact electron beam ion trap (EBIT) | 〇 | 〇 | - | - |
| L1-P6 | Po-Yu Chang(Institute of Space and Plasma Sciences, National Cheng Kung University) Experimental Study of the Criteria for Rod Explosion in Pulsed Power Discharges | 〇 | 〇 | - | - |
| L1-P7 | Taranjot Singh(Dav University) Second harmonic generation of high power Cosh-gaussian laser beam in Cold Quantum Plasma | 〇 | 〇 | - | - |
| L1-P8 | Qianlei Du(Key Laboratory for Laser Plasmas (MOE) and School of Physics and Astronomy, Shanghai Jiao Tong University) Machine Learning Optimization of Room-Temperature Target for Laser Inertial Fusion Energy | 〇 | 〇 | - | - |
| L1-P9 | Edna Rebeca Toro Garza(Stanford University) Observing the influence of atomic and nanoscale structure on the DC conductivity of warm dense matter | 〇 | 〇 | - | - |
| L1-P10 | Wei Liu(Laser Fusion Research Center, China Academy of Engineering Physics) Diagnostics of the electron temperature distribution of hot spot using a four-color quasi-monochromatic X-ray Kirkpatrick-Baez microscope | 〇 | 〇 | - | - |
| L1-P11 | Chiharu Nakatsuji(Institute of Laser Engineering, The University of Osaka) Effects of density scale-length on laser–plasma instabilities and hot-electron generation for shock-ignition laser fusion | 〇 | 〇 | - | - |
| L1-P12 | Mayuko Koga(Graduate School of Engineering, University of Hyogo) Development of Fuel Target Injection Systems for Fast Ignition | 〇 | 〇 | - | - |
| L1-P13 | Naoki Okuda(The University of Osaka) High-density plasma heating with non-local electrons accelerated at a steepened plasma surface formed by PW relativistic laser | 〇 | 〇 | - | - |
| L1-P14 | Hayato Yanagawa(The University of Osaka) Study on propagation characteristics of relativistic laser light in overcritical density plasma | 〇 | 〇 | - | - |
| L1-P15 | Yuji Takagi(ILE, Osaka Univ.) Relativistic electron production by stochastic laser-plasma interaction in sub-relativistic intensity regime | 〇 | 〇 | - | - |
| L1-P16 | Snezhana Abarzhi(California Institute of Technology and The University of Western Australia) Instabilities in fusion plasmas: Interface dynamics and flow fields structure | 〇 | 〇 | - | - |
| L1-P17 | Jieru Ren(Xi'an Jiaotong University) A robust method to generate brilliant electrons through laser interaction with NCD plasma converted from hohlraum radiation of foam target | 〇 | 〇 | - | - |
L2-P Poster core time 14:00-16:10, Sep. 23 [201+202] | 22 | 23 | 24 | 25 | |
| L2-P1 | Amany Gouda(Plasma Physics Department, Egyptian Atomic Energy Authority) The Density Variation Effect on Increasing the Acceleration Rate of the Charged Particle in the Plasma Physics | 〇 | 〇 | 〇 | 〇 |
| L2-P2 | Shivam Gupta(Institute of Space And Plasma Sciences, National Cheng Kung University) Control of electron beam properties and x-ray radiation with adjustable density transition injection in LWFAs | 〇 | 〇 | 〇 | 〇 |
| L2-P3 | Fengyu Sun(Shanghai Institute of Optics and Fine Mechanics) Acceleration of an isolated Attosecond Electron Äb0and Äb0Generation Äb0of Äb0Radiation Source driven by an ultraintense Spatiotemporal Vortex Laser | 〇 | 〇 | 〇 | 〇 |
| L2-P4 | Seongjin Jeon(Gwangju Institute of Science and Technology) Improved Terahertz Detection Based on Terahertz Field-Induced Second Harmonic Generation | 〇 | 〇 | 〇 | 〇 |
| L2-P5 | Shih-Chi Kao(National Central University) Comprehensive Diagnosis of Laser-Plasma Interaction in Capillary Waveguides for High-Harmonic Generation | 〇 | 〇 | - | - |
| L2-P6 | Amar Pal(Indian Institute of Technology Hyderabad) High Harmonic Generation using Plasma Wedge Target | 〇 | 〇 | - | - |
| L2-P7 | Dang Khoa Tran(National Tsing Hua University) Enhanced intensity of betatron radiation from few-TW LWFA with an asymmetric density profile in a sub-mm gas jet | 〇 | 〇 | - | - |
| L2-P8 | John Farmer(Max-Planck-Institute for Physics) AWAKE: harnessing plasma instabilities for high-gradient acceleration | 〇 | 〇 | - | - |
| L2-P9 | Brendan O'Shea(SLAC National Accelerator Laboratory) Plasma Wakefield Acceleration, FACET-II and a Wakefield Collider | 〇 | 〇 | - | - |
| L2-P10 | Lance Labun(Tau Systems Inc.) Laser wakefield accelerators for industry | 〇 | 〇 | - | - |
| L2-P11 | Ming Zeng(Institute of High Energy Physics, Chinese Academy of Sciences) Production of small energy spread and high charge beams in laser wakefield accelerators | 〇 | 〇 | - | - |
| L2-P12 | Xinzhe Zhu(School of Physics and Astronomy, Shanghai Jiao Tong University) High energy electron acceleration and mid-infrared radiation in curved plasma channel | 〇 | 〇 | - | - |
| L2-P13 | Subhasish Bag(Indian Institute of Technology Delhi (IIT Delhi)) Investigation of the dynamics of finite size plasma | 〇 | 〇 | - | - |
SG-P Poster core time 16:30-18:40, Sep. 24 [201+202] | 22 | 23 | 24 | 25 | |
| SG-P1 | Kyung Sun Park(CBNU) Global MHD simulation of magnetospheric dynamics: comparison between the terrestrial and Jovian planets | 〇 | 〇 | 〇 | 〇 |
| SG-P2 | Masatomi Iizawa(Technische Universität Braunschweig) Magnetic helicity observations in the inner heliosphere | 〇 | 〇 | 〇 | 〇 |
| SG-P3 | Tohru Shimizu(RCSCE, Ehime University) Linear Theory of Tearing Instability with the improved WKB approximation | 〇 | 〇 | 〇 | 〇 |
| SG-P4 | Breno Raphaldini(Institute of Mathematics and Statistics, University of Sao Paulo) MHD Rossby waves and the analogy between solar magnetic activity and the Earth’s weather | 〇 | 〇 | 〇 | 〇 |
| SG-P5 | Mengmeng Sun(Harbin Institute of Technology) Acceleration and Phase-space Structure Formation of Cold Ions in Collisionless Reconnection | 〇 | 〇 | 〇 | 〇 |
| SG-P6 | Hui Zhang(Shandong University) Dayside Transient Phenomena and Their Impact on the Magnetosphere and Ionosphere | 〇 | 〇 | 〇 | 〇 |
| SG-P7 | Johan Sharma(Indian Institute Of Technology Hyderabad) Electron scale current sheets in kinetic Alfvén wave turbulence | - | 〇 | 〇 | - |
| SG-P8 | Tomo-Hiko Watanabe(Department of Physics, Nagoya University) Gyrokinetic simulation of auroral arc growth in a dipole field | - | 〇 | 〇 | - |
| SG-P9 | Ruolin Wang(the University of Tokyo) High-Frequency Wave Generation at Earth’s Bow Shock: Insights from Shock-Driven Electron Acceleration | - | 〇 | 〇 | - |
| SG-P10 | Sebastián Saldivia(University of Chile) The effect of plasma expansion on the dispersion properties of MHD waves | - | 〇 | 〇 | - |
| SG-P11 | Yoshiharu Omura(Research Institute for Sustainable Humanosphere, Kyoto University) Nonlinear Wave Growth of Whistler-mode Hiss Emissions in the Plasmasphere | - | 〇 | 〇 | - |
| SG-P12 | Li Li(China University of Geosciences (Beijing)) Modulation of Lower Hybrid and ECH Waves by Ultra-low Frequency (ULF) Waves in the Earth's Magnetosphere | - | 〇 | 〇 | - |
| SG-P13 | Peter Yoon(University of Maryland College Park) Magnetospheric radio and plasma wave emissions: Quasilinear analysis of Juno spacecraft data | - | 〇 | 〇 | - |
| SG-P14 | Andrea Larosa(ISTP-CNR) Wavelet-based modeling of the heliospheric turbulent magnetic field | - | 〇 | 〇 | - |
| SG-P15 | Dedong Wang(GFZ Helmholtz Center for Geosciences) Electromagnetic Waves and Their Effects on Energetic Electrons in the Inner-magnetosphere | - | 〇 | 〇 | - |
| SG-P16 | Kshama Tiwari(Banaras Hindu University) Multi-instrument study on the Great American Solar Eclipse | - | 〇 | 〇 | - |
| SG-P17 | Fumiko Otsuka(Kyushu University) Time series analysis of electron acceleration in quasi-perpendicular shock transition regions | - | 〇 | 〇 | - |
| SG-P18 | Jinghuan Li(Swedish Institute of Space Physics) Direct Evidence of Nonlinear Cyclotron Resonance in the Solar Wind | - | 〇 | 〇 | - |
| SG-P19 | Tsubasa Kotani(Data Analysis Center for Geomagnetism and Space Magnetism, Graduate School of Science, Kyoto University) Harmonic structure of lower hybrid and upper hybrid waves driven by energetic particles | - | 〇 | 〇 | - |
| SG-P20 | Ryoya Sakata(Research Center for Advanced Science and Technology, The University of Tokyo) Effects of a planetary magnetic field on ion escape from ancient Mars based on 3D global multifluid MHD simulations | - | 〇 | 〇 | - |
| SG-P21 | Saba Gondal(University of Engineering and Technology Lahore) Relaxed magnetic structures in the Saturn’s ring | - | 〇 | 〇 | - |
| SG-P22 | Jesus Perez(University of California, Los Angeles) Direct Comparison of Whistler Mode Radiation Between an Electric Dipole and Loop Antenna in a Laboratory Plasma | - | 〇 | 〇 | - |
SA-P Poster core time 16:30-18:40, Sep. 24 [201+202] | 22 | 23 | 24 | 25 | |
| SA-P2 | Pallab Boro(School Of Physical Sciences, Jawaharlal Nehru University, New Delhi) Magnetohydrodynamic (MHD) waves driven by cosmic rays in magnetized self-gravitating dusty molecular clouds | 〇 | 〇 | 〇 | 〇 |
| SA-P3 | Ravinder Ravinder Bhambhu(School of Physical Sciences, Jawaharlal Nehru University) Wave modes and Gravitational instability in Degenerate Quantum Plasmas including Radiation Pressure and Viscoelastic Effects | 〇 | 〇 | 〇 | 〇 |
| SA-P4 | Jyoti Turi(Visva-Bharati University) Dynamics and modulation of cosmic ray modified magnetosonic waves in a galactic gaseous rotating plasma | 〇 | 〇 | 〇 | 〇 |
| SA-P5 | Hayato Saguchi(Department of Geophysics, Graduate School of Science, Tohoku University) The radial evolution of parametric decay instability incorporating temperature anisotropy in the near-sun solar wind | 〇 | 〇 | 〇 | 〇 |
| SA-P6 | Daichi Kashizaki(Tohoku University) Expanding MRI Heating Models for Stratified Accretion Disks to Include Parker Instability | 〇 | 〇 | 〇 | 〇 |
| SA-P7 | Alejandro Zamorano (presented by Munoz)(Universidad de Chile) SOLAR FLARE MODEL OVER A REWIRED MAGNETIC FIELD NETWORK | 〇 | 〇 | 〇 | 〇 |
| SA-P9 | Shunshun Cao(Peking University) Insights into Pulsar Magnetospheres Using FAST Single Pulses | 〇 | 〇 | 〇 | 〇 |
| SA-P10 | Jun Dai(Kyoto University) End-view Observations of Large-amplitude Longitudinal Oscillations of a Quiescent Prominence | 〇 | 〇 | 〇 | 〇 |
| SA-P11 | Ayu Ramada Sukarmadji(Institut de Recherche en Astrophysique et Planétologie) A comparative study of coronal microjet numerical modelling under the influence of p-modes | 〇 | 〇 | 〇 | 〇 |
| SA-P12 | Xiaowei Zhou(Purple Mountain Observatory, Chinese Academy of Sciences) Small-scale Inhomogeneity Effects on Coherent Solar Radio Emission | 〇 | 〇 | 〇 | 〇 |
| SA-P13 | Mehdi Yousefzadeh(Shandong University) Kinetic Modeling of Coherent Emission in Coronal Loops: An Innovative Three-Step Numerical Approach | - | 〇 | 〇 | - |
| SA-P14 | Zihao Yang(High Altitude Observatory, NCAR) Observing the evolution of the Sun’s global coronal magnetic field over 8 months | - | 〇 | 〇 | - |
| SA-P15 | Shuting Li(Purple Mountain Observatory) Unveiling the heating source inside an erupting prominence as observed by Solar Orbiter/Metis and ASO-S/LST | - | 〇 | 〇 | - |
| SA-P16 | Feng Chen(Nanjing University) Data-driven Radiative Magnetohydrodynamics Simulations with the MURaM code | - | 〇 | 〇 | - |
| SA-P17 | Yihua Li(Nanjing University) Data-constrained MHD simulation of solar corona including solar wind effects | - | 〇 | 〇 | - |
| SA-P18 | Shota Yokoyama(Chiba University) Cosmic-ray Driven Resistive Heating of the Intergalactic Medium in the Early Universe and Its Implications for 21-cm Line Observations | - | 〇 | 〇 | - |
| SA-P21 | Nobumitsu Yokoi(University of Tokyo) Novel effects of kinetic and cross helicities in solar- and astro-physics | - | 〇 | 〇 | - |
| SA-P22 | Tetsuo Taki(The University of Tokyo) New framework for dust diffusion in partially ionized plasma with high dust-to-gas ratio: an application to a gap created by a protoplanet in a protoplanetary disk | - | 〇 | 〇 | - |
| SA-P23 | Jeffersson Agudelo Rueda(Northumbria University) Characterising Sub-Grid-Scale Effects on Plasma Turbulence in the Earth's Magnetosheath: Contribution to Generalised Ohm’s Law | - | 〇 | 〇 | - |
| SA-P24 | Liping Yang(National Space Science Center, Chinese Academy of Sciences) Three-part Structure Formation & Interplanetary Rotation of Mars-Directed Coronal Mass Ejection on 2021 December 4 | - | 〇 | 〇 | - |
| SA-P25 | Jinhan Guo(Nanjing University) Numerical MHD Modelings of Failed Solar Eruptions: Constraints and Observational Manifestations | - | 〇 | 〇 | - |
| SA-P26 | Bruno Coppi(Massachusetts Institute of Technology) In Situ Magnetic Field Generation and Plasma Structures as Constituents of Astrophysical Jets* | - | 〇 | 〇 | - |
MF1-P Poster core time 16:30-18:40, Sep. 24 [201+202] | 22 | 23 | 24 | 25 | |
| MF1-P1 | Zhongyong Chen(Huazhong University of Science and Technology) Optimization of Electromagnetic Pellet Injector for disruption mitigation on J-TEXT tokamak | 〇 | 〇 | 〇 | 〇 |
| MF1-P2 | Muto Takahashi(Department of Quantum Science and Energy Engineering, Tohoku University) Numerical Exploration into Feasibility of Current Drive by Synchrotron Radiation in Tokamaks | 〇 | 〇 | 〇 | 〇 |
| MF1-P3 | Jingang Chen(Kyushu University Interdisciplinary Graduate School of Engineering Sciences) Evaluation of a Diagnostic Neutral Beam Injector in the spherical tokamak QUEST | 〇 | 〇 | 〇 | 〇 |
| MF1-P4 | Keiichiro Egashira(Department of Applied Quantum Physics and Nuclear Engineering, Kyushu University) Observation of knock-on tail formation using neutral particle analyzer in LHD deuterium plasma | 〇 | 〇 | 〇 | 〇 |
| MF1-P5 | Tetsutarou Oishi(Tohoku University) X-ray spectroscopy of tungsten impurity ions in magnetically confined high-temperature plasmas and its application to ion and electron temperature measurements | 〇 | 〇 | 〇 | 〇 |
| MF1-P6 | Shin Nishimura(National Institute for Fusion Science) Non-ambipolar Radial Transport of NB-produced Fast Ions including Charge Exchange Loss | 〇 | 〇 | 〇 | 〇 |
| MF1-P7 | Zhoujun Yang(Huazhong University of Science and Technology) Development of Enhanced Scattering diagnostic on J-TEXT | 〇 | 〇 | 〇 | 〇 |
| MF1-P8 | Kazutoshi Yasui(Nagoya University) Determination of multi-variable control gain based on response characteristics and control tests in JA-DEMO plasma | 〇 | 〇 | 〇 | 〇 |
| MF1-P9 | Taiyo Sakai(Nagoya University) Effects of magnetic field geometry on microinstabilities in an advanced stellarator | 〇 | 〇 | 〇 | 〇 |
| MF1-P10 | Komal Komal(Institute for Plasma Research) Impact of MHD activity on the dynamics of energetic electrons in ADITYA-U tokamak | 〇 | 〇 | 〇 | 〇 |
| MF1-P11 | Tong Liu(Dalian University of Technology) Facilitation of NTM control via ECCD due to current condensation effect in RMS tokamak plasmas | 〇 | 〇 | 〇 | 〇 |
| MF1-P12 | Man Li(School of physics, Harbin Institute of Technology) Simulation study of tearing mode instabilities after pellet injection in Tokamak device | 〇 | 〇 | 〇 | 〇 |
| MF1-P13 | Jiangyue Han(The Univerisity of Tokyo) Kinetic effects of thermal ions on internal kink modes in tokamak plasmas | 〇 | 〇 | 〇 | 〇 |
| MF1-P14 | Kosuke Tahara(Department of Nuclear Engineering, Kyoto University) Influence of Electrostatic and Magnetic Fluctuations on ECH Supra-Thermal Electron Transport and Toroidal Torque in Tokamak Plasma | 〇 | 〇 | 〇 | 〇 |
| MF1-P15 | Haijun Ren(University of Science and Technology of China) MHD analysis of electromagnetic GAMs in up-down asymmetric tokamaks | - | 〇 | 〇 | - |
| MF1-P16 | Atsushi Fukuyama(Kyoto University) Kinetic full wave analysis in inhomogeneous plasmas using integral form of dielectric tensor | - | 〇 | 〇 | - |
| MF1-P17 | Trivesh Kant(Institute for Plasma Research) Axisymmetric studies of Avalanche generation and Termination mechanisms for Runaway Electrons in ITER | - | 〇 | 〇 | - |
| MF1-P18 | Kensho Takenaka(Graduate School of Energy Science, Kyoto University) Analysis of Beta Dependence of Microinstabilities in Realistic Configurations Using Global Gyrokinetic Simulations | - | 〇 | 〇 | - |
| MF1-P19 | Tomoya Kawazu(Department of Fundamental Energy, Graduate School of Energy Science, Kyoto University) Effects of magnetic field geometry and beta dependence on trapped electron mode turbulent transport in tokamak plasmas. | - | 〇 | 〇 | - |
| MF1-P21 | Masato Matsuoka(Nagoya University) Experimental observation of local reduction of gradient in energy spectrum of energetic particles interacting with MHD bursts | - | 〇 | 〇 | - |
| MF1-P22 | Helen Kaang(Korea Institute of Fusion Energy (KFE)) The effects of magnetic shear and plasma temperature gradients on intrinsic rotation generation via parity changes in global electromagnetic ITG modes | - | 〇 | 〇 | - |
| MF1-P23 | Alejandro Banon Navarro(Max-Planck-Institute for Plasma Physics) Exploring Turbulence in Stellarators: Advances in Global Gyrokinetic Simulations | - | 〇 | 〇 | - |
| MF1-P24 | Hongxuan Zhu(Zhejiang University) Global eigenmode structure of linear drift-wave instabilities on flux surfaces in stellarators | - | 〇 | 〇 | - |
| MF1-P25 | Xu Yang(Chongqing Technology and Business University) Optimized RMP spectrum design towards robust ELM control | - | 〇 | 〇 | - |
| MF1-P26 | Feng Wang(Dalian University of Technology) Application of Particle Orbit Tracking Model in Tokamak Buring Plasmas | - | 〇 | 〇 | - |
| MF1-P27 | Hiroshi Tanabe(Graduate school of frontier sciences, university of Tokyo) Application of reconnection heating for solenoid-free plasma startup in TS-6 and ST40 | - | 〇 | 〇 | - |
| MF1-P28 | Stefano Gabriellini(UK Atomic Energy Authority (UKAEA), Culham Campus) Core transport simulations of plasma scenarios for JET and JT-60SA tokamaks: validation and predictions for future JT-60SA experiments | - | 〇 | 〇 | - |
| MF1-P29 | Shinichiro Kado(Kyoto University) Dynamic Evolution of Pellet Fueling from Ablation Cloud to Reheat Mode in Heliotron J | - | 〇 | 〇 | - |
| MF1-P30 | Ahmed Diallo(Princeton Plasma Physics Laboratory) Spin-Polarized Fuel for Enhanced Tritium Self-Sufficiency and Electric Power Output | - | 〇 | 〇 | - |
| MF1-P31 | Gabriele Merlo(Max Planck institute for Plasma Physics) Global gyrokinetic multiscale pedestal simulations with the GENE code | - | 〇 | 〇 | - |
| MF1-P32 | Toshiki Kinoshita(Kyushu university) Advances in Turbulence-Driven Transport Control for improved Plasma Confinement | - | 〇 | 〇 | - |
| MF1-P33 | Nengchao Wang(Huazhong University of Science and Technology) Electron internal transport barrier induced by NTM in the ECRH plasma on J-TEXT | - | 〇 | 〇 | - |
| MF1-P34 | Gianluca Pucella(ENEA, C.R. Frascati) Hybrid scenario at high beta with mild MHD activity on MAST-U | - | 〇 | 〇 | - |
| MF1-P35 | John Berkery(Princeton Plasma Physics Laboratory) Research Advancing the Physics of Spherical Tokamaks in Preparation for Operation of NSTX-U | - | 〇 | 〇 | - |
| MF1-P36 | Pan Li(Institute of Plasma Physics, Hefei Institutes of Physical Science, Chinese Academy of Sciences) Dynamics between energetic particles driven instabilities, lower frequency flow and turbulence on EAST | - | 〇 | 〇 | - |
| PL-P1 | Yasushi Ono(University of Tokyo) Magnetic Reconnection for Fusion Plasma Ignition and Current Drive | - | 〇 | 〇 | ^ |
| PL-P3 | Colin M Roach(UKAEA) Recent Progress in our Understanding of Electromagnetic Turbulence in a Conceptual Spherical Tokamak FPP (STEP) | - | 〇 | 〇 | - |
MF2-P Poster core time 16:30-18:40, Sep. 24 [201+202] | 22 | 23 | 24 | 25 | |
| MF2-P1 | Hao Man(Huazhong University of Science and Technology/ Kyoto University) First Detection of Electron Temperature Perturbation Caused by Beta-induced Alfvén Eigenmodes Associated with Locked Magnetic Islands | 〇 | 〇 | 〇 | 〇 |
| MF2-P2 | Kiwoo Lee(Korea institute of Fusion Energy, University of Science and Technology) Influence of Electron Temperature on Tungsten Impurity Behavior | 〇 | 〇 | 〇 | 〇 |
| MF2-P3 | Hisato Kizu(Nagoya University) Design and assembly of internal-coil divertor experimental device SOLEIL | 〇 | 〇 | 〇 | 〇 |
| MF2-P4 | Shiming Liu(Key Laboratory of Materials Modification by Laser, Ion, and Electron Beams (Ministry of Education), School of Physics, Dalian University of Technology) Depth profiling and thickness diagnosis of multilayer deposited samples using LPIR-LIBS technology | 〇 | 〇 | 〇 | 〇 |
| MF2-P5 | Kaushalkumar Parikh(Institute for Plasma Research, Gandhinagar, Gujarat) The Impact of Magnetic Shear on Edge Harmonic Oscillation Driven by Parallel Velocity Shear In Slab Model | 〇 | 〇 | 〇 | 〇 |
| MF2-P6 | Florian Effenberg(Princeton Plasma Physics Laboratory) High-Z Wall Transition on DIII-D to Enable Fusion Pilot Plant–Relevant Research | 〇 | 〇 | 〇 | 〇 |
| MF2-P7 | Fabio Federici(ORNL) Effect of inner leg configuration on detachment in MAST-U | - | 〇 | 〇 | - |
| MF2-P8 | Florian Koechl(ITER Organization) Integrated time-dependent core-edge-SOL modelling of ITER SRO plasma scenarios | - | 〇 | 〇 | - |
| MF2-P9 | Zikai Huang(Tsinghua University) Energy Transfer and Spectral Evolution Induced by Parametric Decay Instability During the Injection of Lower Hybrid Waves | - | 〇 | 〇 | - |
| MF2-P11 | Santanu Banerjee(Princeton Plasma Physics Laboratory) Role of edge neutrals in the low-recycling regime in achieving steady state flat temperature profiles and exciting tearing mode activity in LTX-β | - | 〇 | 〇 | - |
| MF2-P12 | Thomas Bosman(DIFFER) X-point radiator control and its dynamics in ASDEX Upgrade and JET deuterium–tritium discharges | - | 〇 | 〇 | - |
| MF2-P13 | Jonathan Gaspar(IUSTI Laboratory) Overview of long pulse, high fluence and high heat flux operation in WEST full tungsten environment | - | 〇 | 〇 | - |
| MF2-P14 | Dieter Boeyaert(University of Wisconsin-Madison) Particle exhaust studies in non-resonant divertors using EMC3-EIRENE | - | 〇 | 〇 | - |
| MF2-P15 | Makoto Oya(Kyushu university) Evaluation study of fuel retention in plasma-facing walls of JA DEMO reactor | - | 〇 | 〇 | - |
| MF2-P16 | George Wilkie(Princeton Plasma Physics Laboratory) Neutral recycling studies with advanced tooling | - | 〇 | 〇 | - |
| MF2-P17 | Massimo Carpita(SPC - EPFL) Assessment of alternative divertor configurations in TCV via experiments and interpretative SOLPS-ITER modelling | - | 〇 | 〇 | - |
| MF2-P18 | Dennis Boyle(Princeton Plasma Physics Laboratory) Key steps toward low-recycling, liquid lithium fusion devices in LTX-β | - | 〇 | 〇 | - |
| MF2-P19 | Shota Abe(Princeton Plasma Physics Laboratory) An impurity powder dropper for boron wall conditioning and a material sampling probe for conditioning evaluation in the SMART tokamak | - | 〇 | 〇 | - |
| MF2-P20 | Leonid Zakharov(LiWFusion) From tokamaks to toga device with lithium plasma environment and eliminated PSI | - | 〇 | 〇 | - |
| MF2-P21 | Qinghu Yang(Huazhong University of Science and Technology) The construction and experiment results of high-field-side divertor target biasing system (HDTB) on J-TEXT | - | 〇 | 〇 | - |
| MF2-P22 | Andres Cathey(Max Planck IPP Garching) Fully integrated 3D nonlinear time-dependent modelling of pedestal and scrape-off layer in the JOREK code | - | 〇 | 〇 | - |
| PL-P7 | Felix Parra(Princeton Plasma Physics Laboratory) Finite gyro-radius and mean-free-path layers on tokamak walls | - | 〇 | 〇 | - |