Publications of Hideyuki Hotta

A list of publications authored or co-authored by Hideyuki Hotta, 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: 0000-0002-6312-7944

List of publications ordered by citations
Number of papers: 38 (refereed: 38)
No. of citations: 1085
First author papers: 20 (refereed: 20)

2026

  1. Genetic Algorithm for Inferring Model Parameters for Flux Transport Dynamo Simulation [0]
    Shimizu, Y. & Hotta, H., ApJ, 996, 102

2025

  1. Simultaneous Construction of Fast Equator, Poleward Meridional Flow, and Near-surface Shear Layer in Solar Magnetohydrodynamic Calculation [3]
    Hotta, H., ApJ, 985, 163
  2. Recovering coherent flow structures in active regions using machine learning [1]
    Lennard, Matthew G., Silva, Suzana S. A., Tremblay, Benoit, Ramos, Andrés Asensio, Verth, Gary, Ballai, Istvan, Iijima, Haruhisa, Hotta, Hideyuki, Rempel, Matthias, Park, Sung-Hong & Fedun, Viktor, MNRAS, 539, 2498

2024

  1. Inversion for Inferring Solar Meridional Circulation: The Case with Constraints on Angular Momentum Transport inside the Sun [2]
    Hatta, Yoshiki, Hotta, Hideyuki & Sekii, Takashi, ApJ, 972, 79
  2. Detection of solar internal flows with numerical simulation and machine learning [0]
    Masaki, Hiroyuki & Hotta, Hideyuki, Publications of the Astronomical Society of Japan, 76, L33
  3. 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. A Comprehensive Simulation of Solar Wind Formation from the Solar Interior: Significant Cross-field Energy Transport by Interchange Reconnection near the Sun [14]
    Iijima, Haruhisa, Matsumoto, Takuma, Hotta, Hideyuki & Imada, Shinsuke, ApJ, 951, L47
  2. Solar horizontal flow evaluation using neural network and numerical simulations with snapshot data [2]
    Masaki, Hiroyuki, Hotta, Hideyuki, Katsukawa, Yukio & Ishikawa, Ryohtaroh T., Publications of the Astronomical Society of Japan, 75, 1168
  3. Scale-dependent analysis of angular momentum flux in high-resolution magnetohydrodynamic simulations for solar differential rotation [1]
    Mori, K. & Hotta, H., MNRAS, 524, 4746
  4. Investigation of the dependence of angular momentum transport on spatial scales for construction of differential rotation [4]
    Mori, K. & Hotta, H., MNRAS, 519, 3091
  5. Novel Approach to Forecasting Photospheric Emergence of Active Regions [3]
    Silva, S. S. A., Lennard, M., Verth, G., Ballai, I., Rempel, E. L., Warnecke, J., Iijima, H., Hotta, H., Park, S.-H., Donea, A. C., Kusano, K. & Fedun, V., ApJ, 948, L24

2022

  1. Generation of Solar-like Differential Rotation [56]
    Hotta, H., Kusano, K. & Shimada, R., ApJ, 933, 199
  2. Impact of subsurface convective flows on the formation of sunspot magnetic field and energy build-up [8]
    Kaneko, Takafumi, Hotta, Hideyuki, Toriumi, Shin & Kusano, Kanya, MNRAS, 517, 2775
  3. Mean-field Analysis on Large-scale Magnetic Fields at High Reynolds Numbers [6]
    Shimada, Ryota, Hotta, Hideyuki & Yokoyama, Takaaki, ApJ, 935, 55

2021

  1. Solar differential rotation reproduced with high-resolution simulation [58]
    Hotta, H. & Kusano, K., Nature Astronomy, 5, 1100
  2. Relationship between magnetic field properties and statistical flow using numerical simulation and magnetic feature tracking on solar photosphere [0]
    Takahata, K., Hotta, H., Iida, Y. & Oba, T., MNRAS, 503, 3610

2020

  1. Turbulence in the Sun is suppressed on large scales and confined to equatorial regions [16]
    Hanasoge, Shravan M., Hotta, Hideyuki & Sreenivasan, Katepalli R., Science Advances, 6, eaba9639
  2. Formation of superstrong horizontal magnetic field in delta-type sunspot in radiation magnetohydrodynamic simulations [11]
    Hotta, H. & Toriumi, S., MNRAS, 498, 2925
  3. On rising magnetic flux tube and formation of sunspots in a deep domain [42]
    Hotta, H. & Iijima, H., MNRAS, 494, 2523

2019

  1. Weak influence of near-surface layer on solar deep convection zone revealed by comprehensive simulation from base to surface [52]
    Hotta, H., Iijima, H. & Kusano, K., Science Advances, 5, 2307
  2. Effect of Morphological Asymmetry between Leading and Following Sunspots on the Prediction of Solar Cycle Activity [18]
    Iijima, H., Hotta, H. & Imada, S., ApJ, 883, 24
  3. Spontaneous Generation of δ-sunspots in Convective Magnetohydrodynamic Simulation of Magnetic Flux Emergence [37]
    Toriumi, Shin & Hotta, Hideyuki, ApJ, 886, L21

2018

  1. Asteroseismic detection of latitudinal differential rotation in 13 Sun-like stars [105]
    Benomar, O., Bazot, M., Nielsen, M. B., Gizon, L., Sekii, T., Takata, M., Hotta, H., Hanasoge, S., Sreenivasan, K. R. & Christensen-Dalsgaard, J., Science, 361, 1231
  2. Breaking Taylor-Proudman Balance by Magnetic Fields in Stellar Convection Zones [15]
    Hotta, H., ApJ, 860, L24

2017

  1. Convective Velocity Suppression via the Enhancement of the Subadiabatic Layer: Role of the Effective Prandtl Number [29]
    Bekki, Y., Hotta, H. & Yokoyama, T., ApJ, 851, 74
  2. Spatial Inhomogeneity of Kinetic and Magnetic Dissipations in Thermal Convection [2]
    Hotta, H., ApJ, 845, 164
  3. Solar Overshoot Region and Small-scale Dynamo with Realistic Energy Flux [55]
    Hotta, H., ApJ, 843, 52

2016

  1. Large-scale magnetic fields at high Reynolds numbers in magnetohydrodynamic simulations [113]
    Hotta, H., Rempel, M. & Yokoyama, T., Science, 351, 1427

2015

  1. Efficient Small-scale Dynamo in the Solar Convection Zone [60]
    Hotta, H., Rempel, M. & Yokoyama, T., ApJ, 803, 42
  2. High-resolution Calculation of the Solar Global Convection with the Reduced Speed of Sound Technique. II. Near Surface Shear Layer with the Rotation [96]
    Hotta, H., Rempel, M. & Yokoyama, T., ApJ, 798, 51

2014

  1. High-resolution Calculations of the Solar Global Convection with the Reduced Speed of Sound Technique. I. The Structure of the Convection and the Magnetic Field without the Rotation [66]
    Hotta, H., Rempel, M. & Yokoyama, T., ApJ, 786, 24

2012

  1. Magnetic Field Intensification by the Three-dimensional "Explosion" Process [11]
    Hotta, H., Rempel, M. & Yokoyama, T., ApJ, 759, L24
  2. Estimation of Turbulent Diffusivity with Direct Numerical Simulation of Stellar Convection [8]
    Hotta, H., Iida, Y. & Yokoyama, T., ApJ, 751, L9
  3. Generation of twist on magnetic flux tubes at the base of the solar convection zone [8]
    Hotta, H. & Yokoyama, T., A&A, 548, A74
  4. Numerical calculation of convection with reduced speed of sound technique [48]
    Hotta, H., Rempel, M., Yokoyama, T., Iida, Y. & Fan, Y., A&A, 539, A30

2011

  1. Modeling of Differential Rotation in Rapidly Rotating Solar-type Stars [30]
    Hotta, H. & Yokoyama, T., ApJ, 740, 12

2010

  1. Solar Parity Issue with Flux-transport Dynamo [63]
    Hotta, H. & Yokoyama, T., ApJ, 714, L308
  2. Importance of Surface Turbulent Diffusivity in the Solar Flux-Transport Dynamo [39]
    Hotta, H. & Yokoyama, T., ApJ, 709, 1009

Created on Thu Feb 12 17:45:09 2026.