First-authored, refereed papers of Shin Toriumi

A list of first-authored, refereed publications of Shin Toriumi, derived from the SAO/NASA Astrophysics Data System (ADS). The number in brackets after each title indicates the number of citations that the paper has received.

Orcid ID: 0000-0002-1276-2403

List of publications ordered by citations
Number of papers: 25
No. of citations: 1133

2026

1. Bridging Solar and Stellar Physics: Role of SDO in Understanding Stellar Active Regions and Atmospheric Heating [0]
   Toriumi, Shin, Solar Physics, 301, 48

2024

1. Convective Magnetic Flux Emergence Simulations from the Deep Solar Interior to the Photosphere: Comprehensive Study of Flux Tube Twist [3]
   Toriumi, Shin, Hotta, Hideyuki & Kusano, Kanya, ApJ, 975, 209

2023

1. Turbulent convection as a significant hidden provider of magnetic helicity in solar eruptions [5]
   Toriumi, Shin, Hotta, Hideyuki & Kusano, Kanya, Scientific Reports, 13, 8994

2022

1. Universal Scaling Laws for Solar and Stellar Atmospheric Heating: Catalog of Power-law Index between Solar Activity Proxies and Various Spectral Irradiances [25]
   Toriumi, Shin, Airapetian, Vladimir S., Namekata, Kosuke & Notsu, Yuta, ApJS, 262, 46
2. Universal Scaling Laws for Solar and Stellar Atmospheric Heating [29]
   Toriumi, Shin & Airapetian, Vladimir S., ApJ, 927, 179

2020

1. Sun-as-a-star Spectral Irradiance Observations of Transiting Active Regions [29]
   Toriumi, Shin, Airapetian, Vladimir S., Hudson, Hugh S., Schrijver, Carolus J., Cheung, Mark C. M. & DeRosa, Marc L., ApJ, 902, 36
2. Comparative Study of Data-driven Solar Coronal Field Models Using a Flux Emergence Simulation as a Ground-truth Data Set [34]
   Toriumi, Shin, Takasao, Shinsuke, Cheung, Mark C. M., Jiang, Chaowei, Guo, Yang, Hayashi, Keiji & Inoue, Satoshi, ApJ, 890, 103

2019

1. Flare-productive active regions [254]
   Toriumi, Shin & Wang, Haimin, Living Reviews in Solar Physics, 16, 3
2. Spontaneous Generation of δ-sunspots in Convective Magnetohydrodynamic Simulation of Magnetic Flux Emergence [38]
   Toriumi, Shin & Hotta, Hideyuki, ApJ, 886, L21

2017

1. Numerical Simulations of Flare-productive Active Regions: δ-sunspots, Sheared Polarity Inversion Lines, Energy Storage, and Predictions [71]
   Toriumi, Shin & Takasao, Shinsuke, ApJ, 850, 39
2. Various Local Heating Events in the Earliest Phase of Flux Emergence [45]
   Toriumi, Shin, Katsukawa, Yukio & Cheung, Mark C. M., ApJ, 836, 63
3. Magnetic Properties of Solar Active Regions That Govern Large Solar Flares and Eruptions [170]
   Toriumi, Shin, Schrijver, Carolus J., Harra, Louise K., Hudson, Hugh & Nagashima, Kaori, ApJ, 834, 56

2015

1. Light Bridge in a Developing Active Region. II. Numerical Simulation of Flux Emergence and Light Bridge Formation [54]
   Toriumi, Shin, Cheung, Mark C. M. & Katsukawa, Yukio, ApJ, 811, 138
2. Light Bridge in a Developing Active Region. I. Observation of Light Bridge and its Dynamic Activity Phenomena [76]
   Toriumi, Shin, Katsukawa, Yukio & Cheung, Mark C. M., ApJ, 811, 137

2014

1. Formation of a Flare-Productive Active Region: Observation and Numerical Simulation of NOAA AR 11158 [51]
   Toriumi, S., Iida, Y., Kusano, K., Bamba, Y. & Imada, S., Solar Physics, 289, 3351
2. Observations and modeling of the solar flux emergence [7]
   Toriumi, Shin, Publications of the Astronomical Society of Japan, 66, S6
3. Statistical Analysis of the Horizontal Divergent Flow in Emerging Solar Active Regions [28]
   Toriumi, Shin, Hayashi, Keiji & Yokoyama, Takaaki, ApJ, 794, 19

2013

1. Three-dimensional magnetohydrodynamic simulation of the solar magnetic flux emergence. Parametric study on the horizontal divergent flow [13]
   Toriumi, S. & Yokoyama, T., A&A, 553, A55
2. The Magnetic Systems Triggering the M6.6 Class Solar Flare in NOAA Active Region 11158 [48]
   Toriumi, Shin, Iida, Yusuke, Bamba, Yumi, Kusano, Kanya, Imada, Shinsuke & Inoue, Satoshi, ApJ, 773, 128
3. Probing the Shallow Convection Zone: Rising Motion of Subsurface Magnetic Fields in the Solar Active Region [20]
   Toriumi, Shin, Ilonidis, Stathis, Sekii, Takashi & Yokoyama, Takaaki, ApJ, 770, L11

2012

1. Detection of the Horizontal Divergent Flow Prior to the Solar Flux Emergence [24]
   Toriumi, S., Hayashi, K. & Yokoyama, T., ApJ, 751, 154
2. Large-scale 3D MHD simulation on the solar flux emergence and the small-scale dynamic features in an active region [24]
   Toriumi, S. & Yokoyama, T., A&A, 539, A22

2011

1. Numerical Experiments on the Two-step Emergence of Twisted Magnetic Flux Tubes in the Sun [35]
   Toriumi, S. & Yokoyama, T., ApJ, 735, 126
2. Dependence of the Magnetic Energy of Solar Active Regions on the Twist Intensity of the Initial Flux Tubes [18]
   Toriumi, Shin, Miyagoshi, Takehiro, Yokoyama, Takaaki, Isobe, Hiroaki & Shibata, Kazunari, Publications of the Astronomical Society of Japan, 63, 407

2010

1. Two-step Emergence of the Magnetic Flux Sheet from the Solar Convection Zone [32]
   Toriumi, S. & Yokoyama, T., ApJ, 714, 505