Space and Planetary Sciences(P)
Session Sub-categorySolar-Terrestrial Sciences, Space Electromagnetism & Space Environment
Session IDP-EM17
TitleSpace Plasma Physics: Theory and Simulation
Short TitleSpace Plasma Physics
Main ConvenerNameTakayuki Umeda
AffiliationInstitute for Space-Earth Environmental Research, Nagoya University
Co-Convener 1NameYohei Miyake
AffiliationEducation Center on Computational Science and Engineering, Kobe University
Co-Convener 2NameYasuhiro Nariyuki
AffiliationFaculty of Human Development, University of Toyama
Co-Convener 3NameTadas Nakamura
AffiliationFukui Prefectural University
Session LanguageJJ
ScopeThis session focuses on studies of space plasma physics via theoretical and numerical approaches. Papers on a wide variety of topics from natural phenomena to artificial plasma environment as well as theoretical and computational methodologies are welcome.
Presentation FormatOral and Poster presentation
Co-Sponsoring Societies
(Society Members)
Society of Geomagnetism and Earth, Planetary and Space Sciences
Time Presentation No Title Presenter Abstract
Oral Presentation May 23 AM1
09:00 - 09:15 PEM17-01Development of Manycore-Aware PIC Simulator with OhHelp and Particle Binning MethodYohei Miyake Abstract
09:15 - 09:30 PEM17-02On possibility of aurora particle acceleration triggered by ionospheric polarization field aligned currentAkimasa Yoshikawa Abstract
09:30 - 09:45 PEM17-03Structure of the distribution function and beam instability in collisionless magnetic reconnection with a strong guide fieldKazuya Shimomura Abstract
09:45 - 10:00 PEM17-04Formation Mechanism of Petschek-type Reconnection Region in Uniform Resistivity PlasmaTakuya Shibayama Abstract
10:00 - 10:15 PEM17-05A scaling model for plasmoid-dominated turbulent reconnectionSeiji Zenitani Abstract
10:15 - 10:30 PEM17-06Particle scattering in decaying magnetosonic-whistler mode turbulenceShinji Saito Abstract
Oral Presentation May 23 AM2
10:45 - 11:00 PEM17-07Perpendicular temperature anisotropy instability near mirror instability thresholdTakanobu Amano Abstract
11:00 - 11:15 PEM17-08A stochastic shock drift acceleration model of electrons in the shock transition regionTakuma Kato Abstract
11:15 - 11:30 PEM17-09Precursor wave emission in relativistic ion-electron shocksMasanori Iwamoto Abstract
11:30 - 11:45 PEM17-10Coherent Vortex Structures in Magnetosphere in 3D Global MHD SimulationDongSheng CAI Abstract
11:45 - 12:00 PEM17-11Numerical modeling of plasma detachmentTohru Hada Abstract
12:00 - 12:15 PEM17-12Planck Distribution in a Curved SpacetimeTadas Nakamura Abstract
Presentation No Title Presenter Abstract
Poster Presentation May 23 Core Time
PEM17-P01 Mitigation of the numerical Cherenkov instability by using the Cole-Karkkainen field solver for PIC simulations Yosuke Matsumoto Abstract
PEM17-P02 A large time step weighted essentially non-oscillatory (LTS-WENO) scheme for the advection equation Takahiro Miyoshi Abstract
PEM17-P03 Parameter tuning of a 5th order conservative and non-oscillatory scheme with super Gaussian distributions Naru Tsujine Abstract
PEM17-P04 Non-MHD effects in the nonlinear development of the MHD-scale Rayleigh-Taylor instability Takayuki Umeda Abstract
PEM17-P05 Measurement of transport coefficients in collisionless magnetic reconnection Takashi Minoshima Abstract
PEM17-P06 Interaction between energetic electrons and whistler mode chorus waves in 2-D and 3-D magnetic fields Keita Takahashi Abstract
PEM17-P07 Dynamics of energetic protons interacting with electromagnetic ion cyclotron waves Sekine Tomohiro Abstract
PEM17-P08 Time evolution of the active region NOAA 12673 calculated by SFT model Yusaku Watanabe Abstract