2022(令和4)年度論文リスト

目次

※ 以下の文献一覧は計算機共同利用者からの申告に基いて作製されました。各文献の内容に関してCfCAは関知しませんので、不明点等がある場合にはそれぞれの文献の著者へ直接お問い合わせください。




査読付き欧文論文

  1. Abe, Daisei and Inoue, Tsuyoshi and Enokiya, Rei et al., (2022), "The Effect of Shock-wave Duration on Star Formation and the Initial Condition of Massive Cluster Formation", The Astrophysical Journal, 940(2): 106. [XC-A; XC-B]
  2. Akaho, Ryuichiro and Harada, Akira and Nagakura, Hiroki et al., (2023), "Protoneutron Star Convection Simulated with a New General Relativistic Boltzmann Neutrino Radiation Hydrodynamics Code", The Astrophysical Journal, 944(1): 60. [XC-B+; 計算サーバ]
  3. Akitsu, Kazuyuki and Li, Yin and Okumura, Teppei, (2023), "Gravitational wave fossils in nonlinear regime: Halo tidal bias and intrinsic alignments from gravitational wave separate universe simulations", Physical Review D, 107(6). [XC-B]
  4. Aoyama, Shohei and Ouchi, Masami and Harikane, Yuichi, (2023), "Stellar Initial Mass Function (IMF) Probed with Supernova Rates and Neutrino Background: Cosmic-average IMF Slope Is ≃2–3 Similar to the Salpeter IMF", The Astrophysical Journal, 946(2): 69. [XC-B+; 計算サーバ]
  5. Arakawa, Sota and Tanaka, Hidekazu and Kokubo, Eiichiro et al., (2023), "Threshold velocity for the collisional growth of porous dust aggregates consisting of cohesive frictionless spheres", Astronomy & Astrophysics, 670: L21. [計算サーバ]
  6. Arakawa, Sota and Tanaka, Hidekazu and Kokubo, Eiichiro, (2022), "Collisional Growth Efficiency of Dust Aggregates and Its Independence of the Strength of Interparticle Rolling Friction", The Astrophysical Journal, 939(2): 100. [計算サーバ]
  7. Arakawa, Sota and Tanaka, Hidekazu and Kokubo, Eiichiro, (2022), "Impacts of Viscous Dissipation on Collisional Growth and Fragmentation of Dust Aggregates", The Astrophysical Journal, 933(2): 144. [計算サーバ]
  8. Asahina, Yuta and Ohsuga, Ken, (2022), "General Relativistic Radiation Magnetohydrodynamics Simulations of Black Hole Accretion Disks: Comparison of Methods Based on Variable Eddington Tensor and Based on M1 Closure", The Astrophysical Journal, 929(1): 93. [XC-B]
  9. Aung, Han and Nagai, Daisuke and Klypin, Anatoly et al., (2022), "The Uchuu-universe machine data set: galaxies in and around clusters", Monthly Notices of the Royal Astronomical Society, 519(2): 1648-1656. [XC-A]
  10. Banerjee, Smaranika and Tanaka, Masaomi and Kato, Daiji et al., (2022), "Opacity of the Highly Ionized Lanthanides and the Effect on the Early Kilonova", The Astrophysical Journal, 934(2): 117. [XC-B+]
  11. Barkov, Maxim V and Popov, Sergei B, (2022), "Formation of periodic FRB in binary systems with eccentricity", Monthly Notices of the Royal Astronomical Society, 515(3): 4217-4228. [XC-B]
  12. Barkov, Maxim V. and Sharma, Praveen and Gourgouliatos, Konstantinos N. et al., (2022), "Relativistic Magnetic Explosions", The Astrophysical Journal, 934(2): 140. [XC-B]
  13. Broderick, Avery E. and Gold, Roman and Georgiev, Boris et al., (2022), "Characterizing and Mitigating Intraday Variability: Reconstructing Source Structure in Accreting Black Holes with mm-VLBI", The Astrophysical Journal Letters, 930(2): L21. [その他]
  14. Campeti, Paolo and Özsoy, Ogan and Obata, Ippei et al., (2022), "New constraints on axion-gauge field dynamics during inflation from Planck and BICEP/Keck data sets", Journal of Cosmology and Astroparticle Physics, 2022(07): 039. [XC-B]
  15. Cheng, Xiaopeng and Cho, Ilje and Kawashima, Tomohisa et al., (2023), "Monitoring the Size and Flux Density of Sgr A* during the Active State in 2019 with East Asian VLBI Network", Galaxies, 11(2): 46. [XC-A]
  16. Chiaki, Gen and Chon, Sunmyon and Omukai, Kazuyuki et al., (2023), "Direct-collapse black hole formation induced by internal radiation of host haloes", Monthly Notices of the Royal Astronomical Society, 521(2): 2845-2859. [XC-B; その他]
  17. Chon, Sunmyon and Ono, Haruka and Omukai, Kazuyuki et al., (2022), "Impact of the cosmic background radiation on the initial mass function of metal-poor stars", Monthly Notices of the Royal Astronomical Society, 514(3): 4639-4654. [XC-B]
  18. Dohi, A. and Nishimura, N. and Sotani, H. et al., (2022), "Impacts of the Direct Urca and Superfluidity inside a Neutron Star on Type I X-Ray Bursts and X-Ray Superbursts", The Astrophysical Journal, 937(2): 124. [計算サーバ]
  19. Doke, Yuka and Hattori, Kohei, (2022), "Probability of Forming Gaps in the GD-1 Stream by Close Encounters of Globular Clusters", The Astrophysical Journal, 941(2): 129. [GRAPE]
  20. Domoto, Nanae and Tanaka, Masaomi and Kato, Daiji et al., (2022), "Lanthanide Features in Near-infrared Spectra of Kilonovae", The Astrophysical Journal, 939(1): 8. [XC-B]
  21. Dudi, Reetika and Adhikari, Ananya and Brügmann, Bernd et al., (2022), "Investigating GW190425 with numerical-relativity simulations", Physical Review D, 106(8). [XC-A]
  22. Ekanger, Nick and Horiuchi, Shunsaku and Kotake, Kei et al., (2022), "Impact of late-time neutrino emission on the diffuse supernova neutrino background", Physical Review D, 106(4). [XC-B; XC-B(追加募集分); XC-Trial]
  23. Event Horizon Telescope Collaboration and Akiyama, Kazunori and Alberdi, Antxon et al., (2022), "First Sagittarius A* Event Horizon Telescope Results. I. The Shadow of the Supermassive Black Hole in the Center of the Milky Way", The Astrophysical Journal Letters, 930(2): L12. [その他]
  24. Event Horizon Telescope Collaboration and Akiyama, Kazunori and Alberdi, Antxon et al., (2022), "First Sagittarius A* Event Horizon Telescope Results. II. EHT and Multiwavelength Observations, Data Processing, and Calibration", The Astrophysical Journal Letters, 930(2): L13. [その他]
  25. Event Horizon Telescope Collaboration and Akiyama, Kazunori and Alberdi, Antxon et al., (2022), "First Sagittarius A* Event Horizon Telescope Results. III. Imaging of the Galactic Center Supermassive Black Hole", The Astrophysical Journal Letters, 930(2): L14. [その他]
  26. Event Horizon Telescope Collaboration and Akiyama, Kazunori and Alberdi, Antxon et al., (2022), "First Sagittarius A* Event Horizon Telescope Results. IV. Variability, Morphology, and Black Hole Mass", The Astrophysical Journal Letters, 930(2): L15. [その他]
  27. Event Horizon Telescope Collaboration and Akiyama, Kazunori and Alberdi, Antxon et al., (2022), "First Sagittarius A* Event Horizon Telescope Results. V. Testing Astrophysical Models of the Galactic Center Black Hole", The Astrophysical Journal Letters, 930(2): L16. [その他]
  28. Event Horizon Telescope Collaboration and Akiyama, Kazunori and Alberdi, Antxon et al., (2022), "First Sagittarius A* Event Horizon Telescope Results. VI. Testing the Black Hole Metric", The Astrophysical Journal Letters, 930(2): L17. [その他]
  29. Ferrand, Gilles and Tanikawa, Ataru and Warren, Donald C. et al., (2022), "The Double Detonation of a Double-degenerate System, from Type Ia Supernova Explosion to its Supernova Remnant", The Astrophysical Journal, 930(1): 92. [XC-B]
  30. Fujibayashi, Sho and Kiuchi, Kenta and Wanajo, Shinya et al., (2023), "Comprehensive Study of Mass Ejection and Nucleosynthesis in Binary Neutron Star Mergers Leaving Short-lived Massive Neutron Stars", The Astrophysical Journal, 942(1): 39. [XC-A; XC-B]
  31. Fujii, Michiko S and Hattori, Kohei and Wang, Long et al., (2022), "SIRIUS Project – V. Formation of off-centre ionized bubbles associated with Orion Nebula Cluster", Monthly Notices of the Royal Astronomical Society, 514(1): 43-54. [XC-A; XC-B+; XC-B]
  32. Fujii, Michiko S and Wang, Long and Hirai, Yutaka et al., (2022), "SIRIUS Project – IV. The formation history of the Orion Nebula Cluster driven by clump mergers", Monthly Notices of the Royal Astronomical Society, 514(2): 2513-2526. [XC-B+; XC-B]
  33. Fujii, Yuri I. and Kimura, Shigeo S., (2022), "Cosmic-Ray Ionization Rate in Protoplanetary Disks with Sheared Magnetic Fields", The Astrophysical Journal Letters, 937(2): L37. [XC-B]
  34. Fujimoto, Keizo and Sydora, Richard D., (2023), "The electron diffusion region dominated by electromagnetic turbulence in the reconnection current layer", Physics of Plasmas, 30(2): 022106. [XC-B]
  35. Fujita, Tomohiro and Minami, Yuto and Shiraishi, Maresuke et al., (2022), "Can primordial parity violation explain the observed cosmic birefringence?", Physical Review D, 106(10). [XC-B]
  36. Fukuhara, Yuya and Okuzumi, Satoshi and Ono, Tomohiro, (2023), "Two saturated states of the vertical shear instability in protoplanetary disks with vertically varying cooling times", Publications of the Astronomical Society of Japan, 75(1): 233-249. [XC-B]
  37. Furusawa, S. and Nagakura, H., (2023), "Nuclei in core-collapse supernovae engine", Progress in Particle and Nuclear Physics, 129: 104018. [計算サーバ]
  38. Furuya, Kenji and Lee, Seokho and Nomura, Hideko, (2022), "Different Degrees of Nitrogen and Carbon Depletion in the Warm Molecular Layers of Protoplanetary Disks", The Astrophysical Journal, 938(1): 29. [計算サーバ]
  39. Geen, Sam and Agrawal, Poojan and Crowther, Paul A. et al., (2023), "Bringing Stellar Evolution and Feedback Together: Summary of Proposals from the Lorentz Center Workshop", Publications of the Astronomical Society of the Pacific, 135(1044): 021001. [CfCA内部 (XC50;中規模サーバ;計算サーバ)]
  40. Georgiev, Boris and Pesce, Dominic W. and Broderick, Avery E. et al., (2022), "A Universal Power-law Prescription for Variability from Synthetic Images of Black Hole Accretion Flows", The Astrophysical Journal Letters, 930(2): L20. [その他]
  41. Gkogkou, A. and Béthermin, M. and Lagache, G. et al., (2023), "CONCERTO: Simulating the CO, [CII], and [CI] line emission of galaxies in a 117 deg2 field and the impact of field-to-field variance", Astronomy & Astrophysics, 670: A16. [XC-A]
  42. Guo, Kangrou and Kokubo, Eiichiro, (2022), "Planetesimal Dynamics in the Presence of a Giant Planet. II. Dependence on Planet Mass and Eccentricity", The Astrophysical Journal, 935(2): 113. [計算サーバ]
  43. Hamana, Takashi and Hikage, Chiaki and Oguri, Masamune et al., (2022), "E/B mode decomposition of HSC-Y1 cosmic shear using COSEBIs: Cosmological constraints and comparison with other two-point statistics", Publications of the Astronomical Society of Japan, 74(4): 923-945. [XC-B]
  44. Hamana, Takashi, (2022), "An empirical method for mitigating an excess up-scattering mass bias on the weak lensing mass estimates for shear-selected cluster samples", Publications of the Astronomical Society of Japan, 75(1): 14-29. [XC-B]
  45. Hamidani, Hamid and Ioka, Kunihito, (2023), "Cocoon breakout and escape from the ejecta of neutron star mergers", Monthly Notices of the Royal Astronomical Society, 520(1): 1111-1127. [XC-B]
  46. Hasebe, T. and Ade, P. A. R. and Adler, A. et al., (2022), "Sensitivity Modeling for LiteBIRD", Journal of Low Temperature Physics. [XC-B]
  47. Hasegawa, Yukihiko and Suzuki, Takeru K. and Tanaka, Hidekazu et al., (2023), "Collisional Growth and Fragmentation of Dust Aggregates. II. Mass Distribution of Icy Fragments", The Astrophysical Journal, 944(1): 38. [計算サーバ]
  48. Hayashi, Kota and Fujibayashi, Sho and Kiuchi, Kenta et al., (2022), "General-relativistic neutrino-radiation magnetohydrodynamic simulation of seconds-long black hole-neutron star mergers", Physical Review D, 106(2). [XC-A; XC-B+]
  49. Hayashi, Toshinori and Trani, Alessandro A. and Suto, Yasushi, (2022), "Dynamical Disruption Timescales and Chaotic Behavior of Hierarchical Triple Systems", The Astrophysical Journal, 939(2): 81. [計算サーバ]
  50. Hirai, Yutaka and Beers, Timothy C and Chiba, Masashi et al., (2022), "Origin of highly r-process-enhanced stars in a cosmological zoom-in simulation of a Milky Way-like galaxy", Monthly Notices of the Royal Astronomical Society, 517(4): 4856-4874. [XC-A; XC-B]
  51. Hiroshima, Nagisa and Ando, Shin’ichiro and Ishiyama, Tomoaki, (2022), "Semi-analytical frameworks for subhaloes from the smallest to the largest scale", Monthly Notices of the Royal Astronomical Society, 517(2): 2728-2737. [XC-A]
  52. Hoshino, H and Kokubo, E, (2022), "Orbital structure of planetary systems formed by giant impacts: stellar mass dependence", Monthly Notices of the Royal Astronomical Society, 519(2): 2838-2847. [計算サーバ; GPU]
  53. Huang, Yong-Jia and Baiotti, Luca and Kojo, Toru et al., (2022), "Merger and Postmerger of Binary Neutron Stars with a Quark-Hadron Crossover Equation of State", Physical Review Letters, 129(18). [XC-B]
  54. Hubmayr, J. and Ade, P. A. R. and Adler, A. et al., (2022), "Optical Characterization of OMT-Coupled TES Bolometers for LiteBIRD", Journal of Low Temperature Physics, 209(3-4): 396-408. [XC-B]
  55. Hyodo, Ryuki and Sugiura, Keisuke, (2022), "Formation of Moons and Equatorial Ridge around Top-shaped Asteroids after Surface Landslide", The Astrophysical Journal Letters, 937(2): L36. [XC-B+]
  56. Inayoshi, Kohei and Onoue, Masafusa and Sugahara, Yuma et al., (2022), "The Age of Discovery with the James Webb Space Telescope: Excavating the Spectral Signatures of the First Massive Black Holes", The Astrophysical Journal Letters, 931(2): L25. [XC-B]
  57. Inoue, Shigeki and Si, Xiaotian and Okamoto, Takashi et al., (2022), "Classification of cosmic structures for galaxies with deep learning: connecting cosmological simulations with observations", Monthly Notices of the Royal Astronomical Society, 515(3): 4065-4081. [XC-A; XC-B+; GPU]
  58. Iwakami, Wakana and Harada, Akira and Nagakura, Hiroki et al., (2022), "Principal-axis Analysis of the Eddington Tensor for the Early Post-bounce Phase of Rotational Core-collapse Supernovae", The Astrophysical Journal, 933(1): 91. [計算サーバ]
  59. Iwasaki, Kazunari and Tomida, Kengo, (2022), "Universal Properties of Dense Clumps in Magnetized Molecular Clouds Formed through Shock Compression of Two-phase Atomic Gases", The Astrophysical Journal, 934(2): 174. [XC-B+; CfCA内部 (XC50)]
  60. Jorstad, Svetlana and Wielgus, Maciek and Lico, Rocco et al., (2023), "The Event Horizon Telescope Image of the Quasar NRAO 530", The Astrophysical Journal, 943(2): 170. [その他]
  61. Kamijima, Shoma F. and Ohira, Yutaka, (2022), "Escape of cosmic rays from perpendicular shocks in the circumstellar magnetic field", Physical Review D, 106(12). [XC-B]
  62. Kaneda, Yuka and Furusawa, Shun, (2022), "Dark Matter Capture by Neutron Stars with Modern Nuclear Equations of State", Journal of the Physical Society of Japan, 91(6). [計算サーバ]
  63. Kato, Chinami and Nagakura, Hiroki, (2022), "Effects of energy-dependent scatterings on fast neutrino flavor conversions", Physical Review D, 106(12). [XC-B]
  64. Kawazura, Y. and Schekochihin, A.A. and Barnes, M. et al., (2022), "Energy partition between Alfvénic and compressive fluctuations in magnetorotational turbulence with near-azimuthal mean magnetic field", Journal of Plasma Physics, 88(3). [XC-A]
  65. Kawazura, Yohei, (2022), "Integrating Factor Runge–Kutta Method in Shearing Coordinates", Journal of the Physical Society of Japan, 91(11). [XC-A]
  66. Keszthelyi, Z and de Koter, A and Götberg, Y et al., (2022), "The effects of surface fossil magnetic fields on massive star evolution: IV. Grids of models at Solar, LMC, and SMC metallicities", Monthly Notices of the Royal Astronomical Society, 517(2): 2028-2055. [CfCA内部 (XC50;中規模サーバ;計算サーバ)]
  67. Keszthelyi, Zsolt, (2023), "Magnetism in High-Mass Stars", Galaxies, 11(2): 40. [CfCA内部 (XC50;中規模サーバ;計算サーバ)]
  68. Kimura, Yuki and Tanaka, Kyoko K. and Inatomi, Yuko et al., (2023), "Nucleation experiments on a titanium-carbon system imply nonclassical formation of presolar grains", Science Advances, 9(2). [XC-B]
  69. Kino, Motoki and Takahashi, Masaaki and Kawashima, Tomohisa et al., (2022), "Implications from the Velocity Profile of the M87 Jet: A Possibility of a Slowly Rotating Black Hole Magnetosphere", The Astrophysical Journal, 939(2): 83. [XC-A]
  70. Kinoshita, Shinichi W. and Nakamura, Fumitaka, (2022), "MHD Simulations of Dense Core Collision", The Astrophysical Journal, 937(2): 69. [XC-MD; XC-B(追加募集分)]
  71. Kiuchi, Kenta and Held, Loren E. and Sekiguchi, Yuichiro et al., (2022), "Implementation of advanced Riemann solvers in a neutrino-radiation magnetohydrodynamics code in numerical relativity and its application to a binary neutron star merger", Physical Review D, 106(12). [XC-A]
  72. Knierim, H. and Shibata, S. and Helled, R., (2022), "Constraining the origin of giant exoplanets via elemental abundance measurements", Astronomy & Astrophysics, 665: L5. [XC-B]
  73. Kobayashi, Yosuke and Nishimichi, Takahiro and Takada, Masahiro et al., (2022), "Full-shape cosmology analysis of the SDSS-III BOSS galaxy power spectrum using an emulator-based halo model: A 5% determination of σ8", Physical Review D, 105(8). [XC-A; XC-B]
  74. Kobayashi, Yudai and Takaishi, Daisuke and Tsukamoto, Yusuke, (2023), "Cosmic ray ionization rate versus dust fraction: Which plays a crucial role in the early evolution of the circumstellar disc?", Monthly Notices of the Royal Astronomical Society, 521(2): 2661-2669. [XC-MD]
  75. Kunitomo, Masanobu and Guillot, Tristan and Buldgen, Gaël, (2022), "Evidence of a signature of planet formation processes from solar neutrino fluxes", Astronomy & Astrophysics, 667: L2. [計算サーバ]
  76. Kurita, Toshiki and Takada, Masahiro, (2022), "Analysis method for 3D power spectrum of projected tensor fields with fast estimator and window convolution modeling: An application to intrinsic alignments", Physical Review D, 105(12). [XC-B]
  77. Kuwahara, Ayumu and Kurokawa, Hiroyuki and Tanigawa, Takayuki et al., (2022), "Dust ring and gap formation by gas flow induced by low-mass planets embedded in protoplanetary disks", Astronomy & Astrophysics, 665: A122. [XC-B]
  78. Lam, Alan Tsz-Lok and Shibata, Masaru and Kiuchi, Kenta, (2023), "Numerical-relativity simulation for tidal disruption of white dwarfs by a supermassive black hole", Physical Review D, 107(4). [XC-A]
  79. Lykawka, Patryk Sofia and Ito, Takashi, (2023), "Terrestrial planet and asteroid belt formation by Jupiter–Saturn chaotic excitation", Scientific Reports, 13(1). [計算サーバ]
  80. Maeda, Keiichi and Jiang, Ji-an and Doi, Mamoru et al., (2023), "Initial flash and spectral formation of Type Ia supernovae with an envelope: applications to overluminous SNe Ia", Monthly Notices of the Royal Astronomical Society, 521(2): 1897-1907. [XC-B]
  81. Maeda, Natsuho and Ohtsuki, Keiji and Tanigawa, Takayuki et al., (2022), "Delivery of Gas onto the Circumplanetary Disk of Giant Planets: Planetary-mass Dependence of the Source Region of Accreting Gas and Mass Accretion Rate", The Astrophysical Journal, 935(1): 56. [XC-B; 計算サーバ]
  82. Matsukoba, Ryoki and Tanaka, Kei E I and Omukai, Kazuyuki et al., (2022), "Protostellar-disc fragmentation across all metallicities", Monthly Notices of the Royal Astronomical Society, 515(4): 5506-5522. [XC-B; XC-B(追加募集分); XC-Trial]
  83. Matsumoto, Akinori and Ouchi, Masami and Nakajima, Kimihiko et al., (2022), "EMPRESS. VIII. A New Determination of Primordial He Abundance with Extremely Metal-poor Galaxies: A Suggestion of the Lepton Asymmetry and Implications for the Hubble Tension", The Astrophysical Journal, 941(2): 167. [XC-B+]
  84. Matsumoto, J and Asahina, Y and Takiwaki, T et al., (2022), "Magnetic support for neutrino-driven explosion of 3D non-rotating core-collapse supernova models", Monthly Notices of the Royal Astronomical Society, 516(2): 1752-1767. [XC-B+; XC-B; CfCA内部 (XC50)]
  85. Matsumoto, Jin and Yamamoto, Naoki and Yang, Di-Lun, (2022), "Chiral plasma instability and inverse cascade from nonequilibrium left-handed neutrinos in core-collapse supernovae", Physical Review D, 105(12). [XC-B+]
  86. Matsumoto, Kosei and Nakagawa, Takao and Wada, Keiichi et al., (2022), "Probing Dynamics and Thermal Properties Inside Molecular Tori with CO Rovibrational Absorption Lines", The Astrophysical Journal, 934(1): 25. [XC-B; XC50; その他]
  87. Minoda, Teppei and Saga, Shohei and Takahashi, Tomo et al., (2022), "Probing the primordial Universe with 21 cm line from cosmic dawn/epoch of reionization", Publications of the Astronomical Society of Japan, 75(Supplement_1): S154-S180. [XC-B]
  88. Minoda, Teppei and Yoshiura, Shintaro and Takahashi, Tomo, (2022), "Probing isocurvature perturbations with 21-cm global signal in the light of HERA result", Physical Review D, 105(8). [XC-B]
  89. Misugi, Yoshiaki and Inutsuka, Shu-ichiro and Arzoumanian, Doris, (2023), "Evolution of the Angular Momentum of Molecular Cloud Cores Formed from Filament Fragmentation", The Astrophysical Journal, 943(2): 76. [XC-B]
  90. Miyatake, Hironao and Kobayashi, Yosuke and Takada, Masahiro et al., (2022), "Cosmological inference from an emulator based halo model. I. Validation tests with HSC and SDSS mock catalogs", Physical Review D, 106(8). [XC-B]
  91. Miyatake, Hironao and Sugiyama, Sunao and Takada, Masahiro et al., (2022), "Cosmological inference from an emulator based halo model. II. Joint analysis of galaxy-galaxy weak lensing and galaxy clustering from HSC-Y1 and SDSS", Physical Review D, 106(8). [XC-B]
  92. Moliné, Ángeles and Sánchez-Conde, Miguel A and Aguirre-Santaella, Alejandra et al., (2022), "ΛCDM halo substructure properties revealed with high-resolution and large-volume cosmological simulations", Monthly Notices of the Royal Astronomical Society, 518(1): 157-173. [XC-A]
  93. Mori, Kanji and Moriya, Takashi J. and Takiwaki, Tomoya et al., (2023), "Light Curves and Event Rates of Axion Instability Supernovae", The Astrophysical Journal, 943(1): 12. [XC-B(追加募集分); XC-Trial; 計算サーバ]
  94. Moriya, Takashi J and Murase, Kohta and Kashiyama, Kazumi et al., (2022), "Variable thermal energy injection from magnetar spin-down as a possible cause of stripped-envelope supernova light-curve bumps", Monthly Notices of the Royal Astronomical Society, 513(4): 6210-6218. [CfCA内部 (計算サーバ)]
  95. Munshi, D. and Takahashi, R. and McEwen, J.D. et al., (2022), "A new estimator for phase statistics", Journal of Cosmology and Astroparticle Physics, 2022(05): 006. [XC-B]
  96. Munshi, D. and Takahashi, R. and McEwen, J.D., (2022), "On weak lensing response functions", Journal of Cosmology and Astroparticle Physics, 2022(10): 022. [XC-B]
  97. Nagakura, Hiroki and Zaizen, Masamichi, (2022), "Time-Dependent and Quasisteady Features of Fast Neutrino-Flavor Conversion", Physical Review Letters, 129(26). [XC-B]
  98. Nagakura, Hiroki and Zaizen, Masamichi, (2023), "Connecting small-scale to large-scale structures of fast neutrino-flavor conversion", Physical Review D, 107(6). [XC-B]
  99. Nagakura, Hiroki, (2022), "General-relativistic quantum-kinetics neutrino transport", Physical Review D, 106(6). [XC-B]
  100. Nakamura, Ko and Takiwaki, Tomoya and Kotake, Kei, (2022), "Three-dimensional simulation of a core-collapse supernova for a binary star progenitor of SN 1987A", Monthly Notices of the Royal Astronomical Society, 514(3): 3941-3952. [XC-B+; CfCA内部 (XC50)]
  101. Nakamura, T. and Matsumoto, M. and Amano, K. et al., (2022), "Formation and evolution of carbonaceous asteroid Ryugu: Direct evidence from returned samples", Science, 379(6634). [計算サーバ]
  102. Nakatani, Riouhei and Takasao, Shinsuke, (2022), "Anatomy of Photoevaporation Base: Linking the Property of the Launched Wind to Irradiation Flux", The Astrophysical Journal, 930(2): 124. [XC-B]
  103. Nashimoto, Masashi and Tanaka, Masayuki and Chiba, Masashi et al., (2022), "The Missing Satellite Problem outside of the Local Group. II. Statistical Properties of Satellites of Milky Way–like Galaxies", The Astrophysical Journal, 936(1): 38. [XC-Trial]
  104. Nitta, Shin-ya and Kondoh, Koji, (2022), "Effects of Magnetic Shear and Thermodynamic Asymmetry on Spontaneous Magnetohydrodynamic Reconnection", The Astrophysical Journal, 936(2): 125. [XC-B; XC-B(追加募集分)]
  105. Notsu, Shota and Ohno, Kazumasa and Ueda, Takahiro et al., (2022), "The Molecular Composition of Shadowed Proto-solar Disk Midplanes Beyond the Water Snowline", The Astrophysical Journal, 936(2): 188. [計算サーバ]
  106. Ogihara, Masahiro and Genda, Hidenori and Sekine, Yasuhito, (2023), "Early Water Delivery to Terrestrial Planet Regions during the Stages of Jupiter’s Formation and Migration in the Grand Tack Model", The Planetary Science Journal, 4(2): 32. [計算サーバ]
  107. Oguri, Masamune and Takahashi, Ryuichi, (2022), "Amplitude and phase fluctuations of gravitational waves magnified by strong gravitational lensing", Physical Review D, 106(4). [XC-B]
  108. Ohno, Kazumasa and Fortney, Jonathan J., (2023), "Nitrogen as a Tracer of Giant Planet Formation. I. A Universal Deep Adiabatic Profile and Semianalytical Predictions of Disequilibrium Ammonia Abundances in Warm Exoplanetary Atmospheres", The Astrophysical Journal, 946(1): 18. [計算サーバ]
  109. Oku, Yuri and Tomida, Kengo and Nagamine, Kentaro et al., (2022), "Osaka Feedback Model. II. Modeling Supernova Feedback Based on High-resolution Simulations", The Astrophysical Journal Supplement Series, 262(1): 9. [XC-B]
  110. Osato, Ken and Nagai, Daisuke, (2022), "Baryon pasting algorithm: halo-based and particle-based pasting methods", Monthly Notices of the Royal Astronomical Society, 519(2): 2069-2082. [XC-B]
  111. Osato, Ken and Okumura, Teppei, (2022), "Clustering of emission line galaxies with IllustrisTNG – I. Fundamental properties and halo occupation distribution", Monthly Notices of the Royal Astronomical Society, 519(2): 1771-1791. [XC-B]
  112. Pais, Matteo and Piran, Tsvi and Lyubarsky, Yuri et al., (2023), "The Collimation of Relativistic Jets in Post–Neutron Star Binary Merger Simulations", The Astrophysical Journal Letters, 946(1): L9. [XC-A]
  113. Park, Youngsoo and Sunayama, Tomomi and Takada, Masahiro et al., (2022), "Cluster cosmology with anisotropic boosts: validation of a novel forward modelling analysis and application on SDSS redMaPPer clusters", Monthly Notices of the Royal Astronomical Society, 518(4): 5171-5189. [XC-A]
  114. Philcox, Oliver H. E. and Ivanov, Mikhail M. and Cabass, Giovanni et al., (2022), "Cosmology with the redshift-space galaxy bispectrum monopole at one-loop order", Physical Review D, 106(4). [XC-A]
  115. Relaño, M and De Looze, I and Saintonge, A et al., (2022), "Dust grain size evolution in local galaxies: a comparison between observations and simulations", Monthly Notices of the Royal Astronomical Society, 515(4): 5306-5334. [XC-B+]
  116. Richers, Sherwood and Duan, Huaiyu and Wu, Meng-Ru et al., (2022), "Code comparison for fast flavor instability simulations", Physical Review D, 106(4). [XC-B]
  117. Sadanari, Kenji Eric and Omukai, Kazuyuki and Sugimura, Kazuyuki et al., (2022), "Non-ideal magnetohydrodynamic simulations of the first star formation: the effect of ambipolar diffusion", Monthly Notices of the Royal Astronomical Society, 519(2): 3076-3090. [XC-B+; XC-B]
  118. Sasaki, Hirokazu and Takiwaki, Tomoya, (2022), "A detailed analysis of the dynamics of fast neutrino flavor conversions with scattering effects", Progress of Theoretical and Experimental Physics, 2022(7). [計算サーバ; CfCA内部 (計算サーバ)]
  119. Shibaike, Yuhito and Mori, Shoji, (2022), "Effective dust growth in laminar circumplanetary discs with magnetic wind-driven accretion", Monthly Notices of the Royal Astronomical Society, 518(4): 5444-5456. [XC-B(追加募集分); XC-Trial]
  120. Shibata, Kengo and Takasao, Shinsuke and Reeves, Katharine K., (2023), "Numerical Study on Excitation of Turbulence and Oscillation in Above-the-loop-top Region of a Solar Flare", The Astrophysical Journal, 943(2): 106. [XC-B]
  121. Shibata, S and Helled, R and Kobayashi, H, (2022), "Heavy-element accretion by proto-Jupiter in a massive planetesimal disc, revisited", Monthly Notices of the Royal Astronomical Society, 519(2): 1713-1731. [XC-B]
  122. Shimabukuro, Hayato and Hasegawa, Kenji and Kuchinomachi, Akira et al., (2022), "Exploring the cosmic dawn and epoch of reionization with the 21 cm line", Publications of the Astronomical Society of Japan, 75(Supplement_1): S1-S32. [XC-B]
  123. Shimizu, Kimihiko and Shoda, Munehito and Suzuki, Takeru K., (2022), "Role of Longitudinal Waves in Alfvén-wave-driven Solar Wind", The Astrophysical Journal, 931(1): 37. [XC-B]
  124. Shirasaki, Masato and Okamoto, Takashi and Ando, Shin’ichiro, (2022), "Modelling self-interacting dark matter substructures – I.  Calibration with N-body simulations of a Milky-Way-sized halo and its satellite", Monthly Notices of the Royal Astronomical Society, 516(3): 4594-4611. [XC-A; XC-B]
  125. Shoda, Munehito and Iwai, Kazumasa and Shiota, Daikou, (2022), "Testing the Alfvén-wave Model of the Solar Wind with Interplanetary Scintillation", The Astrophysical Journal, 928(2): 130. [XC-B]
  126. Shultz, M. E. and Casini, R. and Cheung, M. C. M. et al., (2022), "Ultraviolet spectropolarimetry with Polstar: using Polstar to test magnetospheric mass-loss quenching", Astrophysics and Space Science, 367(12). [CfCA内部 (XC50;中規模サーバ;計算サーバ)]
  127. Sobacchi, Emanuele and Lyubarsky, Yuri and Beloborodov, Andrei M. et al., (2023), "Saturation of the Filamentation Instability and Dispersion Measure of Fast Radio Bursts", The Astrophysical Journal Letters, 943(2): L21. [XC-B+]
  128. Subrayan, Bhagya M. and Milisavljevic, Dan and Moriya, Takashi J. et al., (2023), "Inferencing Progenitor and Explosion Properties of Evolving Core-collapse Supernovae from Zwicky Transient Facility Light Curves", The Astrophysical Journal, 945(1): 46. [CfCA内部 (XC50;中規模サーバ;計算サーバ)]
  129. Sugiura, Keisuke and Haba, Makiko K. and Genda, Hidenori, (2022), "Giant impact onto a Vesta-like asteroid and formation of mesosiderites through mixing of metallic core and surface crust", Icarus, 379: 114949. [XC-A]
  130. Sugiura, Ken’ichi and Furusawa, Shun and Sumiyoshi, Kohsuke et al., (2022), "Leptonic and semi-leptonic neutrino interactions with muons in proto-neutron star cooling", Progress of Theoretical and Experimental Physics, 2022(11). [計算サーバ]
  131. Sugiyama, Sunao and Takada, Masahiro and Miyatake, Hironao et al., (2022), "HSC Year 1 cosmology results with the minimal bias method: HSC×BOSS galaxy-galaxy weak lensing and BOSS galaxy clustering", Physical Review D, 105(12). [XC-B]
  132. Sumiyoshi, Kohsuke and Furusawa, Shun and Nagakura, Hiroki et al., (2022), "Effects of nuclear matter and composition in core-collapse supernovae and long-term proto-neutron star cooling", Progress of Theoretical and Experimental Physics, 2023(1). [計算サーバ]
  133. Suwa, Yudai and Harada, Akira and Harada, Masayuki et al., (2022), "Observing Supernova Neutrino Light Curves with Super-Kamiokande. III. Extraction of Mass and Radius of Neutron Stars from Synthetic Data", The Astrophysical Journal, 934(1): 15. [その他]
  134. Takahashi, Koh and Takiwaki, Tomoya and Yoshida, Takashi, (2023), "Monotonicity of the Cores of Massive Stars", The Astrophysical Journal, 945(1): 19. [XC-B; 計算サーバ]
  135. Takasao, Shinsuke and Tomida, Kengo and Iwasaki, Kazunari et al., (2022), "Three-dimensional Simulations of Magnetospheric Accretion in a T Tauri Star: Accretion and Wind Structures Just Around the Star", The Astrophysical Journal, 941(1): 73. [XC-A]
  136. Tanaka, Kyoko K. and Mann, Ingrid and Kimura, Yuki, (2022), "Formation of ice particles through nucleation in the mesosphere", Atmospheric Chemistry and Physics, 22(8): 5639-5650. [XC-B]
  137. Tanimoto, Atsushi and Ueda, Yoshihiro and Odaka, Hirokazu et al., (2022), "NuSTAR Observations of 52 Compton-thick Active Galactic Nuclei Selected by the Swift/Burst Alert Telescope All-sky Hard X-Ray Survey", The Astrophysical Journal Supplement Series, 260(2): 30. [XC-B]
  138. Tashima, Yuta and Ohmura, Takumi and Machida, Mami, (2023), "Pseudo-observation of spiral galaxies in the radio band to verify depolarization models", Publications of the Astronomical Society of Japan, 75(Supplement_1): S123-S137. [XC-B; CfCA内部 (XC50)]
  139. Terasawa, Ryo and Takahashi, Ryuichi and Nishimichi, Takahiro et al., (2022), "Separate universe approach to evaluate nonlinear matter power spectrum for nonflat ΛCDM model", Physical Review D, 106(8). [XC-A; XC-B; XC-MD; XC-B(追加募集分)]
  140. Tomaru, Ryota and Done, Chris and Mao, Junjie, (2022), "What powers the wind from the black hole accretion disc in GRO J1655−40?", Monthly Notices of the Royal Astronomical Society, 518(2): 1789-1801. [XC-B]
  141. Tominaga, Ryosuke T. and Kobayashi, Hiroshi and Inutsuka, Shu-ichiro, (2022), "Nonlinear Outcome of Coagulation Instability in Protoplanetary Disks. I. First Numerical Study of Accelerated Dust Growth and Dust Concentration at Outer Radii", The Astrophysical Journal, 937(1): 21. [XC-B]
  142. Tomita, Sara and Ohira, Yutaka and Kimura, Shigeo S. et al., (2022), "Interaction of a Relativistic Magnetized Collisionless Shock with a Dense Clump", The Astrophysical Journal Letters, 936(1): L9. [XC-B+; XC-B]
  143. Toyouchi, Daisuke and Inayoshi, Kohei and Li, Wenxiu et al., (2022), "Radiative feedback on supermassive star formation: the massive end of the Population III initial mass function", Monthly Notices of the Royal Astronomical Society, 518(2): 1601-1616. [XC-B]
  144. Tsuji, M. and Tsujimoto, M. and Sekimoto, Y. et al., (2022), "Assessment of the RFI by the X-Band Antenna in LiteBIRD Using a 3D Electromagnetic Field Simulator", Journal of Low Temperature Physics, 209(5-6): 1097-1103. [XC-B]
  145. Tsukamoto, Yusuke and Okuzumi, Satoshi, (2022), "Impact of Dust Size Distribution Including Large Dust Grains on Magnetic Resistivity: An Analytical Approach", The Astrophysical Journal, 934(1): 88. [XC-B+]
  146. Tsunetoe, Yuh and Mineshige, Shin and Kawashima, Tomohisa et al., (2022), "Diverse Polarimetric Features of AGN Jets from Various Viewing Angles: Towards a Unified View", Galaxies, 10(5): 103. [XC-A; XC-B]
  147. Tsunetoe, Yuh and Mineshige, Shin and Kawashima, Tomohisa et al., (2022), "Investigating the Disk–Jet Structure in M87 through Flux Separation in the Linear and Circular Polarization Images", The Astrophysical Journal, 931(1): 25. [XC-A; XC-B]
  148. Uchiyama, Hisakazu and Yamashita, Takuji and Nagao, Tohru et al., (2022), "A Wide and Deep Exploration of Radio Galaxies with Subaru HSC (WERGS). VII. Redshift Evolution of Radio Galaxy Environments at z = 0.3–1.4", The Astrophysical Journal, 934(1): 68. [CfCA内部 (XC50)]
  149. Umeda, Hiroya and Ouchi, Masami and Nakajima, Kimihiko et al., (2022), "EMPRESS. VII. Ionizing Spectrum Shapes of Extremely Metal-poor Galaxies: Uncovering the Origins of Strong He ii and the Impact on Cosmic Reionization", The Astrophysical Journal, 930(1): 37. [XC-B+; XC-B]
  150. Unno, Masaki and Hanawa, Tomoyuki and Takasao, Shinsuke, (2022), "Magnetohydrodynamic Model of Late Accretion onto a Protoplanetary Disk: Cloudlet Encounter Event", The Astrophysical Journal, 941(2): 154. [XC-MD]
  151. Utsumi, Aoto and Ohsuga, Ken and Takahashi, Hiroyuki R. et al., (2022), "Component of Energy Flow from Supercritical Accretion Disks Around Rotating Stellar Mass Black Holes", The Astrophysical Journal, 935(1): 26. [XC-B]
  152. Varsi, F. and Ahmad, S. and Chakraborty, M. et al., (2023), "A GEANT4 based simulation framework for the large area muon telescope of the GRAPES-3 experiment", Journal of Instrumentation, 18(03): P03046. [計算サーバ; その他]
  153. Vielva, P. and Martínez-González, E. and Casas, F.J. et al., (2022), "Polarization angle requirements for CMB B-mode experiments. Application to the LiteBIRD satellite", Journal of Cosmology and Astroparticle Physics, 2022(04): 029. [XC-B]
  154. Washinoue, Haruka and Shoda, Munehito and Suzuki, Takeru K., (2022), "The Effect of the Chromospheric Temperature on Coronal Heating", The Astrophysical Journal, 938(2): 126. [計算サーバ]
  155. Wedemeyer, Sven and Fleishman, Gregory and de la Cruz Rodríguez, Jaime et al., (2022), "Prospects and challenges of numerical modeling of the Sun at millimeter wavelengths", Frontiers in Astronomy and Space Sciences, 9. [XC-B]
  156. Williams, M. and Davids, B. and Lotay, G. et al., (2023), "Cross sections of the Rb83(p,γ)Sr84 and Kr84(p,γ)Rb85 reactions at energies characteristic of the astrophysical γ process", Physical Review C, 107(3). [計算サーバ]
  157. Yokoi, N and Masada, Y and Takiwaki, T, (2022), "Modelling stellar convective transport with plumes – I. Non-equilibrium turbulence effect in double-averaging formulation", Monthly Notices of the Royal Astronomical Society, 516(2): 2718-2735. [XC-B]
  158. Yoshioka, Shogo and Mineshige, Shin and Ohsuga, Ken et al., (2022), "Large-scale outflow structure and radiation properties of super-Eddington flow: Dependence on the accretion rates", Publications of the Astronomical Society of Japan, 74(6): 1378-1395. [XC-B]
  159. Yutani, Naomichi and Toba, Yoshiki and Baba, Shunsuke et al., (2022), "Origin and Evolution of Dust-obscured Galaxies in Galaxy Mergers", The Astrophysical Journal, 936(2): 118. [XC-B]
  160. Zenitani, Seiji and Nakano, Shin'ya, (2022), "Loading a relativistic Kappa distribution in particle simulations", Physics of Plasmas, 29(11): 113904. [XC-B; GPU]
  161. Zhou, Enping and Kiuchi, Kenta and Shibata, Masaru et al., (2022), "Evolution of equal mass binary bare quark stars in full general relativity: Could a supramassive merger remnant experience prompt collapse?", Physical Review D, 106(10). [XC-A]

    162. これ以下は利用者から報告されてはいないものの謝辞内にCfCAの共同計算機利用が明記されている論文です (国立天文台研究評価支援室の調査結果)。

  162. Chuang, Yao-Tsung and Okumura, Teppei and Shirasaki, Masato, (2022), "Distinguishing between ΛCDM and f(R) gravity models using halo ellipticity correlations in simulations", Monthly Notices of the Royal Astronomical Society, 515(3): 4464-4470. [XC50]
  163. Houston, Tyler and Croton, Darren J and Sinha, Manodeep, (2023), "Using the star-forming main sequence to explore quiescent galaxies across cosmic time", Monthly Notices of the Royal Astronomical Society: Letters, 522(1): L11-L15. [その他]
  164. Hu, Haojie and Inayoshi, Kohei and Haiman, Zoltán et al., (2022), "Long-term Evolution of Supercritical Black Hole Accretion with Outflows: A Subgrid Feedback Model for Cosmological Simulations", The Astrophysical Journal, 934(2): 132. [XC50]
  165. Hu, Haojie and Inayoshi, Kohei and Haiman, Zoltán et al., (2022), "Supercritical Growth Pathway to Overmassive Black Holes at Cosmic Dawn: Coevolution with Massive Quasar Hosts", The Astrophysical Journal, 935(2): 140. [XC50]
  166. Kadono, T. and Arakawa, M. and Tsujido, S. et al., (2022), "Effect of projectile shape and interior structure on crater size in strength regime", Earth, Planets and Space, 74(1). [計算サーバ]
  167. Kobayashi, Masato I. N. and Inoue, Tsuyoshi and Tomida, Kengo et al., (2022), "Nature of Supersonic Turbulence and Density Distribution Function in the Multiphase Interstellar Medium", The Astrophysical Journal, 930(1): 76. [XC30; XC50]
  168. Kohri, Kazunori and Sekiguchi, Toyokazu and Wang, Sai, (2022), "Cosmological 21-cm line observations to test scenarios of super-Eddington accretion on to black holes being seeds of high-redshifted supermassive black holes", Physical Review D, 106(4). [XC50]
  169. Richardson, T R G and Corasaniti, P-S, (2022), "Timing the last major merger of galaxy clusters with large halo sparsity", Monthly Notices of the Royal Astronomical Society, 513(4): 4951-4967. [その他]
  170. Sawala, Till and Teeriaho, Meri and Johansson, Peter H, (2023), "The Local Group’s mass: probably no more than the sum of its parts", Monthly Notices of the Royal Astronomical Society, 521(4): 4863-4877. [その他]
  171. Shimakawa, Rhythm and Okabe, Nobuhiro and Shirasaki, Masato et al., (2022), "King Ghidorah Supercluster: Mapping the light and dark matter in a new supercluster at z = 0.55 using the subaru hyper suprime-cam", Monthly Notices of the Royal Astronomical Society: Letters, 519(1): L45-L50. [XC50]
  172. Sumi, Motoki and Takehiro, Shin-ichi and Ohfuchi, Wataru et al., (2022), "Superrotation of Titan’s Stratosphere Driven by the Radiative Heating of the Haze Layer", The Astrophysical Journal, 928(2): 149. [XC50]
  173. Wang, Shijie and Kanagawa, Kazuhiro D. and Suto, Yasushi, (2022), "Architecture of Planetary Systems Predicted from Protoplanetary Disks Observed with ALMA. II. Evolution Outcomes and Dynamical Stability", The Astrophysical Journal, 932(1): 31. [計算サーバ]

これ以下はすばる望遠鏡の主焦点カメラ Hyper Suprime-Cam の戦略枠プログラムによる観測結果 (Hyper Suprime-Cam Subaru Strategic Program, 通称HSC SSP) のデータ処理に対するCfCAの協力が謝辞に明記されている論文です。

  1. Ando, Makoto and Shimasaku, Kazuhiro and Ito, Kei, (2022), "Detection of anisotropic satellite quenching in galaxy clusters up to z ∼ 1", Monthly Notices of the Royal Astronomical Society, 519(1): 13-25.
  2. Bahar, Y. Emre and Bulbul, Esra and Clerc, Nicolas et al., (2022), "The eROSITA Final Equatorial-Depth Survey (eFEDS)", Astronomy & Astrophysics, 661: A7.
  3. Carlsten, Scott G. and Greene, Jenny E. and Beaton, Rachael L. et al., (2022), "The Exploration of Local VolumE Satellites (ELVES) Survey: A Nearly Volume-limited Sample of Nearby Dwarf Satellite Systems", The Astrophysical Journal, 933(1): 47.
  4. Chiu, I-Non and Ghirardini, Vittorio and Liu, Ang et al., (2022), "The eROSITA Final Equatorial-Depth Survey (eFEDS)", Astronomy & Astrophysics, 661: A11.
  5. Damjanov, Ivana and Sohn, Jubee and Geller, Margaret J. et al., (2023), "Size and Spectroscopic Evolution of HectoMAP Quiescent Galaxies", The Astrophysical Journal, 943(2): 149.
  6. Damjanov, Ivana and Sohn, Jubee and Utsumi, Yousuke et al., (2022), "Quiescent Galaxy Size, Velocity Dispersion, and Dynamical Mass Evolution", The Astrophysical Journal, 929(1): 61.
  7. Drlica-Wagner, A. and Ferguson, P. S. and Adamów, M. et al., (2022), "The DECam Local Volume Exploration Survey Data Release 2", The Astrophysical Journal Supplement Series, 261(2): 38.
  8. DUTTA, SUSHANT and SINGH, VEERESH and CHANDRA, C. H. ISHWARA et al., (2022), "Characteristics of remnant radio galaxies detected in deep radio continuum observations from SKA pathfinders", Journal of Astrophysics and Astronomy, 43(2).
  9. Harikane, Yuichi and Inoue, Akio K. and Mawatari, Ken et al., (2022), "A Search for H-Dropout Lyman Break Galaxies at z ∼ 12–16", The Astrophysical Journal, 929(1): 1.
  10. Huang, Qifeng and Fan, Lulu, (2022), "Massive Early-type Galaxies in the HSC-SSP: Flux Fraction of Tidal Features and Merger Rates", The Astrophysical Journal Supplement Series, 262(2): 39.
  11. Jackson, Thomas M and Pasquali, Anna and La Barbera, Francesco et al., (2023), "The nature and origins of the low surface brightness outskirts of massive, central galaxies in Subaru HSC", Monthly Notices of the Royal Astronomical Society, 520(1): 1155-1172.
  12. Kitayama, Tetsu and Ueda, Shutaro and Okabe, Nobuhiro et al., (2023), "Galaxy clusters at z ∼ 1 imaged by ALMA with the Sunyaev–Zel’dovich effect", Publications of the Astronomical Society of Japan, 75(2): 311-337.
  13. Klein, M. and Oguri, M. and Mohr, J. J. et al., (2022), "The eROSITA Final Equatorial-Depth Survey (eFEDS)", Astronomy & Astrophysics, 661: A4.
  14. Kumar, Amit and More, Surhud and Rana, Divya, (2022), "Subaru HSC weak lensing of SDSS redMaPPer cluster satellite galaxies: empirical upper limit on orphan fractions", Monthly Notices of the Royal Astronomical Society, 517(3): 4389-4404.
  15. Lin, Ruqiu and Zheng, Zhen-Ya and Hu, Weida et al., (2022), "On the Origin of the Strong Optical Variability of Emission-line Galaxies", The Astrophysical Journal, 940(1): 35.
  16. Liu, A. and Bulbul, E. and Ghirardini, V. et al., (2022), "The eROSITA Final Equatorial-Depth Survey (eFEDS)", Astronomy & Astrophysics, 661: A2.
  17. Longley, Emily P and Chang, Chihway and Walter, Christopher W et al., (2023), "A unified catalogue-level reanalysis of stage-III cosmic shear surveys", Monthly Notices of the Royal Astronomical Society, 520(4): 5016-5041.
  18. Miyatake, Hironao and Harikane, Yuichi and Ouchi, Masami et al., (2022), "First Identification of a CMB Lensing Signal Produced by 1.5 Million Galaxies at z4: Constraints on Matter Density Fluctuations at High Redshift", Physical Review Letters, 129(6).
  19. Okura, Yuki and Futamase, Toshifumi, (2022), "New highly precise weak gravitational lensing flexions measurement method based on ERA method", Monthly Notices of the Royal Astronomical Society, 516(1): 668-692.
  20. Ono, Yoshiaki and Fujimoto, Seiji and Harikane, Yuichi et al., (2022), "ALMA Observations of CO Emission from Luminous Lyman-break Galaxies at z = 6.0293–6.2037", The Astrophysical Journal, 941(1): 74.
  21. Pearson, W. J. and Suelves, L. E. and Ho, S. C.-C. et al., (2022), "North Ecliptic Pole merging galaxy catalogue", Astronomy & Astrophysics, 661: A52.
  22. Pouliasis, E. and Mountrichas, G. and Georgantopoulos, I. et al., (2022), "XXL-HSC: Link between AGN activity and star formation in the early Universe (z ⩾ 3.5)", Astronomy & Astrophysics, 667: A56.
  23. Salvato, M. and Wolf, J. and Dwelly, T. et al., (2022), "The eROSITA Final Equatorial-Depth Survey (eFEDS)", Astronomy & Astrophysics, 661: A3.
  24. Schuldt, S. and Cañameras, R. and Shu, Y. et al., (2023), "HOLISMOKES", Astronomy & Astrophysics, 671: A147.
  25. Shin, Suhyun and Im, Myungshin and Kim, Yongjung et al., (2022), "NEWLY DISCOVERED z ~ 5 QUASARS BASED ON DEEP LEARNING AND BAYESIAN INFORMATION CRITERION", Journal of The Korean Astronomical Society, 55(4): 131-138.
  26. Shu, Yiping and Cañameras, Raoul and Schuldt, Stefan et al., (2022), "HOLISMOKES", Astronomy & Astrophysics, 662: A4.
  27. Tang, Shenli and Silverman, John D and Yesuf, Hassen M et al., (2023), "Morphological asymmetries of quasar host galaxies with Subaru Hyper Suprime-Cam", Monthly Notices of the Royal Astronomical Society, 521(4): 5272-5297.
  28. Sohn, Jubee and Geller, Margaret J. and Hwang, Ho Seong et al., (2023), "HectoMAP: The Complete Redshift Survey (Data Release 2)", The Astrophysical Journal, 945(2): 94.
  29. Tantalo, Maria and Dall’Ora, Massimo and Bono, Giuseppe et al., (2022), "On the Dwarf Irregular Galaxy NGC 6822. I. Young, Intermediate, and Old Stellar Populations", The Astrophysical Journal, 933(2): 197.
  30. Tian, Chuan and Urry, C. Megan and Ghosh, Aritra et al., (2023), "Using Machine Learning to Determine Morphologies of z < 1 AGN Host Galaxies in the Hyper Suprime-Cam Wide Survey", The Astrophysical Journal, 944(2): 124.
  31. Toba, Yoshiki and Liu, Teng and Urrutia, Tanya et al., (2022), "The eROSITA Final Equatorial-Depth Survey (eFEDS)", Astronomy & Astrophysics, 661: A15.
  32. Vijarnwannaluk, Bovornpratch and Akiyama, Masayuki and Schramm, Malte et al., (2022), "The Obscured Fraction of Quasars at Cosmic Noon", The Astrophysical Journal, 941(1): 97.
  33. Wong, Kenneth C and Chan, James H H and Chao, Dani C-Y et al., (2022), "Survey of Gravitationally lensed objects in HSC Imaging (SuGOHI). VIII. New galaxy-scale lenses from the HSC SSP", Publications of the Astronomical Society of Japan, 74(5): 1209-1219.



その他の欧文報告

    該当なし



査読付き和文論文

  1. 道越 秀吾, 小久保 英一郎 (2022), "特集「新・惑星形成論」 低密度ダストからなるダスト層の重力不安定と微惑星形成", 日本惑星科学会誌遊星人, 31巻(2022) 2号 [XC-B; GPU]
  2. 田中 今日子, (2022), "気相からの核生成の分子動力学シミュレーション ―核生成率の高精度化と夜光雲への適用―", エアロゾル研究, 37巻(2022) 4号 [XC-B]



その他の和文報告

    該当なし



書籍

    該当なし



国際会議・国内会議の集録

  1. Banerjee, Smaranika and Tanaka, Masaomi and Kawaguchi, Kyohei et al., (2023), "The simulations of early kilonova emission from neutron star mergers", Proceedings of the International Astronomical Union, 16(S363): 233-236. [XC-B+]
  2. Fujii, Michiko S. and Wang, Long and Saitoh, Takayuki R. et al., (2023), "Formation process of the Orion Nebula Cluster", Proceedings of the International Astronomical Union, 16(S362): 258-261. [XC-B+]
  3. Hirashima, Keiya and Moriwaki, Kana and Fujii, Michiko et al., (2023), "Predicting the Expansion of Supernova Shells Using Deep Learning toward Highly Resolved Galaxy Simulations", Proceedings of the International Astronomical Union, 16(S362): 209-214. [XC-MD]
  4. Komaki, Ayano and Nakatani, Riouhei and Yoshida, Naoki, (2023), "Photoevaporation of Protoplanetary Disks", Proceedings of the International Astronomical Union, 16(S362): 294-299. [XC-B]
  5. Sugimoto, Masahiro and Kato, Atsushi and Takaki, Junji et al., (2022), "Seismic isolation system design and performance of TMT telescope structure", Ground-based and Airborne Telescopes IX, 1218216. [XC-B]
  6. Tanaka, Shoya and Nishimura, Nobuya and Nishimura, Itoshi et al., (2023), "The evaluation of the fission mode and fragment yields of neutron-rich nuclei by the dynamical model", EPJ Web of Conferences, 279: 11021. [計算サーバ]



その他の出版物

  1. Keszthelyi, Zsolt, (2022), "Reproduction package for the paper "The effects of surface fossil magnetic fields on massive star evolution: IV. Grids of models at Solar, LMC, and SMC metallicities"", Zenodo [CfCA内部 (XC50;中規模サーバ;計算サーバ)]



博士学位論文

  1. Elizabeth Jayne Latrobe ILES, (2022), "Relating the origins of disk bar structure to star formation and stellar dynamics in simulations of resolved galaxies", 北海道大学. [XC-B]
  2. Smaranika Banerjee , (2022), "Early kilonovae from neutron star mergers", 東北大学. [XC-B+]
  3. 三谷啓人, (2022), "Understanding Atmospheric Escape of Hot Jupiters Using Radiation Hydrodynamics Simulations", 東京大学. [XC-B]
  4. 上島翔真, (2022), "Global Test Particle Simulation of Cosmic-ray Acceleration in a Supernova Remnant Shock Propagating in a Stellar Wind", 東京大学. [XC-B]
  5. 五十嵐 太一, (2022), "Radiation MHD Simulations of Soft X-ray Emitting Regions in Active Galactic Nuclei", 千葉大学. [XC-B]
  6. 前田龍之介, (2022), "Formation of Young Massive Clusters by Fast HI Gas Collision", 名古屋大学. [XC-B]
  7. 有馬宣明, (2022), "A Study of Short-Timescale Optical Transients Using the Wide-Field CMOS Camera Tomo-e Gozen", 東京大学. [計算サーバ]
  8. 木村真博, (2022), "Development of planetary population synthesis model for validation of planet formation theory through the statistical comparison with exoplanet observations", 東京大学. [計算サーバ]
  9. 林航大, (2022), "Black Hole-Neutron Star Mergers –Universal Evolution Picture Obtained by Seconds-long Numerical-Relativistic Neutrino-Radiation Magnetohydrodynamics Simulation–", 京都大学. [XC-B+]
  10. 郭康柔, (2022), "Planetesimal dynamics under the perturbation of a massive body", 東京大学. [GPU, 計算サーバ]



修士学位論文

  1. Oerd Xhemollari, (2022), "The Formation of Population III - Dominated Galaxies Under the Influence of UV Background Radiation", 筑波大学. [XC-Trial]
  2. 中澤淳一郎, (2022), "固体微粒子の超高速衝突により生じる 破砕・昇華・電離物質の 包括的な捕集システムの開発", 総合研究大学院大学. [計算サーバ]
  3. 人見拓也, (2022), "一般相対論的輻射輸送計算による歳差運動する低光度降着円盤の輻射スペクトルの特性", 筑波大学. [XC-MD]
  4. 仙波千尋, (2022), "SPH法を用いた小惑星自転変化に関する研究", 神戸大学. [XC-MD]
  5. 仲里佑利奈, (2022), "Formation and evolution of star clusters and galaxies in the early Universe", 東京大学. [XC-B]
  6. 吹原瑶, (2022), "偏波プロファイルを用いたフィラメント分子雲の3次元磁場構造の研究", 鹿児島大学. [XC-MD]
  7. 大野翔大, (2022), "一般相対的輻射磁気流体計算による亜臨界降着円盤の内縁構造とブラックホールスピンの研究", 筑波大学. [XC-MD]
  8. 宮山隆志, (2022), "原始惑星への微惑星衝突による蒸発・溶融量についての数値シミュレーションを用いた理論研究", 名古屋大学. [計算サーバ]
  9. 小銀翼, (2022), "原始惑星系円盤中を移動する木星によるトロヤ群小惑星の捕獲と軌道進化", 神戸大学. [XC-MD]
  10. 山本凌也, (2022), "幾何学的に厚いブラックホール降着円盤における磁束輸送の理論研究", 大阪大学. [XC-B, 計算サーバ]
  11. 政川俊康, (2022), "銀河中心領域へのガス供給、分子雲形成と進化に関する研究", 放送大学. [XC-MD]
  12. 柴田健吾, (2022), "太陽フレアの乱流の起源に関する三次元磁気流体シミュレーション研究", 大阪大学. [XC-B]
  13. 水谷洋輔, (2022), "微惑星環の力学", 東京大学. [GPU]
  14. 海野真輝, (2022), "磁気流体シミュレーションを用いた遷移円盤周りにおける星風構造の調査", 大阪大学. [XC-MD]
  15. 片山諒介, (2022), "ダークマター欠乏銀河の潮汐形成シナリオに対する力学的摩擦の影響", 大阪大学. [XC-Trial]
  16. 篠原良太, (2022), "自己相互作用を持つ暗黒物質に対する,銀河の観測データからの制限", 早稲田大学. [XC-Trial]
  17. 金子克大, (2022), "Extremely high-resolution simulations of dwarf galaxies", 東京大学. [XC-B]
  18. 金滉基, (2022), "孤立ブラックホール磁気圏からのガンマ線放射の理論的研究", 東北大学. [XC-B(追加募集分)]
  19. 鈴口智也, (2022), "連星種ブラックホールへのガス降着と軌道進化", 京都大学. [XC-B(追加募集分), XC-Trial]
  20. 高橋克幸, (2022), "銀河系中心領域における上昇フィラメント形成の三次元磁気流体シミュレーション", 千葉大学. [XC-MD]
  21. 黒澤里沙, (2022), "数値シミュレーションと機械学習を用いた天の川銀河構造に関する研究", 筑波大学. [計算サーバ]
  22. 矢野雄大, (2022), "コア合体による降着ガスと星周構造の時間進化", 東京大学. [XC-MD]



学士学位論文

  1. 中原蒼大, (2022), "微惑星衝突における合体条件の天体サイズ依存性", 神戸大学. [XC-Trial]
  2. 早瀬理紘, (2022), "宇宙プラズマ中の磁気リコネクションの内部に生じる渦構造の検討", 神戸大学. [XC-Trial]
  3. 櫻井大夕, (2022), "恒星の外層内における中性子星への質量降着", 早稲田大学. [XC-Trial]



その他の学位論文

    該当なし



年報 第17号に戻る