Publications


  • Downey, B. G., Nimmo, F. & Matsuyama, I. The thermal–orbital evolution of the Earth–Moon system with a subsurface magma ocean and fossil figure. Icarus 389, 115257 (2023).
  • Matsuyama, I. N., Steinke, T. & Nimmo, F. Tidal Heating in Io. Elements 18, 374–378 (2022).
  • Hay, H. C. F. C., Matsuyama, I. & Pappalardo, R. T. The High‐Frequency Tidal Response of Ocean Worlds: Application to Europa and Ganymede. J Geophys Res Planets 127, (2022).
  • Johnson, P. E., Keane, J. T., Young, L. A. & Matsuyama, I. New Constraints on Pluto’s Sputnik Planitia Ice Sheet from a Coupled Reorientation–Climate Model. Planet Sci J 2, 194 (2021).
  • Matsuyama, I., Trinh, A. & Keane, J. T. The Lunar Fossil Figure in a Cassini State. Planet Sci J 2, 232 (2021).
  • Matsuyama, I., Keane, J. T., Trinh, A., Beuthe, M. & Icarus, T. W. Global tectonic patterns of the Moon. Icarus 358, 114202 (2021).
  • Downey, B. G., Nimmo, F. & Matsuyama, I. Inclination damping on Callisto. Monthly Notices of the Royal Astronomical Society 499, 40–51 (2020).
  • Schenk, P., Matsuyama, I. & Nimmo, F. A Very Young Age for True Polar Wander on Europa From Related Fracturing. Geophys. Res. Lett. 47, 161 (2020).
  • Bouley, S. et al. A thick crustal block revealed by reconstructions of early Mars highlands. Nature Geoscience 13, 105–109 (2020).
  • Hay, H., Trinh, A. & Matsuyama, I. Powering the Galilean Satellites with Moon‐moon Tides. Geophys. Res. Lett. 47, (2020).
  • Cruikshank, D. P. et al. Recent cryovolcanism in Virgil Fossae on Pluto. Icarus 330, 155–168 (2019).
  • Hay, H. C. F. C. & Matsuyama, I. Tides Between the TRAPPIST-1 Planets. The Astrophysical Journal 875, 22 (2019).
  • Hay, H. C. F. C. & Matsuyama, I. Nonlinear tidal dissipation in the subsurface oceans of Enceladus and other icy satellites. Icarus 319, 68–85 (2019).
  • Nimmo, F. & Matsuyama, I. Tidal dissipation in rubble-pile asteroids. Icarus 321, 715–721 (2019).
  • Matsuyama, I., Beuthe, M., Hay, H. C. F. C., Nimmo, F. & Kamata, S. Ocean tidal heating in icy satellites with solid shells. Icarus 312, 208–230 (2018).
  • Hemingway, D. J. & Matsuyama, I. Isostatic equilibrium in spherical coordinates and implications for crustal thickness on the Moon, Mars, Enceladus, and elsewhere. Geophys. Res. Lett. 44, 7695–7705 (2017).
  • Hay, H. C. F. C. & Matsuyama, I. Numerically modelling tidal dissipation with bottom drag in the oceans of Titan and Enceladus. Icarus 281, 342–356 (2017).
  • Keane, J. T., Matsuyama, I., Kamata, S. & Steckloff, J. K. Reorientation and faulting of Pluto due to volatile loading within Sputnik Planitia. Nature 540, 90–93 (2016).
  • Bouley, S. et al. Late Tharsis formation and implications for early Mars. Nature 531, 344–347 (2016).
  • Siegler, M. A. et al. Lunar true polar wander inferred from polar hydrogen. Nature 531, 480–484 (2016).
  • Zuber, M. T. et al. Gravity field of the Orientale basin from the Gravity Recovery and Interior Laboratory Mission. Science 354, 438–441 (2016).
  • Matsuyama, I. et al. GRAIL, LLR, and LOLA constraints on the interior structure of the Moon. Geophys. Res. Lett. 43, 8365–8375 (2016).
  • Kamata, S., Matsuyama, I. & Nimmo, F. Tidal resonance in icy satellites with subsurface oceans. J. Geophys. Res. Planets 120, 1528–1542 (2015).
  • Chan, N.-H. et al. Time-dependent rotational stability of dynamic planets with elastic lithospheres. J. Geophys. Res. Planets 119, 169–188 (2014).
  • Matsuyama, I., Nimmo, F. & Mitrovica, J. X. Planetary Reorientation. Annu. Rev. Earth Planet. Sci. 42, 605–634 (2014).
  • Keane, J. T. & Matsuyama, I. Evidence for Lunar True Polar Wander, and a Past Low-Eccentricity, Synchronous Lunar Orbit. Geophys. Res. Lett. 41, (2014).
  • Matsuyama, I. Tidal dissipation in the oceans of icy satellites. Icarus 242, 11–18 (2014).
  • Williams, J. G. et al. Lunar interior properties from the GRAIL mission. J. Geophys. Res. Planets 119, 1546–1578 (2014).
  • Andrews-Hanna, J. C. et al. Ancient Igneous Intrusions and Early Expansion of the Moon Revealed by GRAIL Gravity Gradiometry. Science 339, 675–678 (2013).
  • Matsuyama, I. Fossil figure contribution to the lunar figure. Icarus 222, 411–414 (2013).
  • Creveling, J. R., Mitrovica, J. X., Chan, N.-H., Latychev, K. & Matsuyama, I. Mechanisms for oscillatory true polar wander. Nature 491, 244–248 (2012).
  • Chan, N.-H. et al. The rotational stability of a convecting Earth: the Earth’s figure and TPW over the last 100 Myr. Geophysical Journal International 187, 773–782 (2011).
  • Matsuyama, I. Dispersal of protoplanetary disks by wind stripping. EAS Publications Series 41, 171–175 (2010).
  • Matsuyama, I. & Manga, M. Mars without the equilibrium rotational figure, Tharsis, and the remnant rotational figure. J. Geophys. Res. Planets 115, E12020 (2010).
  • Kite, E. S., Matsuyama, I., Manga, M., Perron, J. T. & Mitrovica, J. X. True Polar Wander driven by late-stage volcanism and the distribution of paleopolar deposits on Mars. Earth and Planetary Science Letters 280, 254–267 (2009).
  • Matsuyama, I. & Nimmo, F. Gravity and tectonic patterns of Mercury: Effect of tidal deformation, spin-orbit resonance, nonzero eccentricity, despinning, and reorientation. J. Geophys. Res. Planets 114, E01010 (2009).
  • Matsuyama, I., Johnstone, D. & Hollenbach, D. Dispersal of Protoplanetary Disks by Central Wind Stripping. Astrophysical Journal 700, 10–19 (2009).
  • Daradich, A. et al. Equilibrium rotational stability and figure of Mars. Icarus 194, 463–475 (2008).
  • Schenk, P. M., Matsuyama, I. & Nimmo, F. True polar wander on Europa from global-scale small-circle depressions. Nature 453, 368–371 (2008).
  • Matsuyama, I. & Nimmo, F. Tectonic patterns on reoriented and despun planetary bodies. Icarus 195, 459–473 (2008).
  • Nimmo, F. & Matsuyama, I. Reorientation of icy satellites by impact basins. Geophys. Res. Lett. 34, L19203 (2007).
  • Matsuyama, I., Nimmo, F. & Mitrovica, J. X. Reorientation of planets with lithospheres: The effect of elastic energy. Icarus 191, 401–412 (2007).
  • Perron, J. T., Mitrovica, J. X., Manga, M., Matsuyama, I. & Richards, M. A. Evidence for an ancient martian ocean in the topography of deformed shorelines. Nature 447, 840–843 (2007).
  • Matsuyama, I. & Nimmo, F. Rotational stability of tidally deformed planetary bodies. J. Geophys. Res. Planets 112, E11003 (2007).
  • Matsuyama, I., Mitrovica, J. X., Manga, M., Perron, J. T. & Richards, M. A. Rotational stability of dynamic planets with elastic lithospheres. J. Geophys. Res. Planets 111, E02003-n/a (2006).
  • Mitrovica, J. X., Wahr, J. M., Matsuyama, I., Paulson, A. & Tamisiea, M. E. Reanalysis of ancient eclipse, astronomic and geodetic data: A possible route to resolving the enigma of global sea-level rise. Earth and Planetary Science Letters 243, 390–399 (2006).
  • Mitrovica, J. X., Wahr, J., Matsuyama, I. & Paulson, A. The rotational stability of an ice-age earth. Geophys. J. Int. 161, 491–506 (2005).
  • Matsuyama, I., Johnstone, D. & Murray, N. W. Halting Planet Migration by Photoevaporation from the Central Source. Astrophysical Journal 585, L143–L146 (2003).
  • Hogerheijde, M. R., Johnstone, D., Matsuyama, I., Jayawardhana, R. & Muzerolle, J. Indications for Grain Growth and Mass Decrease in Cold Dust Disks around Classical T Tauri Stars in the MBM 12 Young Association. Astrophysical Journal 593, L101–L104 (2003).
  • Matsuyama, I., Johnstone, D. & Hartmann, L. Viscous Diffusion and Photoevaporation of Stellar Disks. Astrophysical Journal 582, 893–904 (2003).
library(scholar) library(tidyverse) library(glue) # escape some special chars, german umlauts, ... char2html <- function(x){ dictionary <- data.frame( symbol = c("ä","ö","ü","Ä", "Ö", "Ü", "ß"), html = c("ä","ö", "ü","Ä", "Ö", "Ü","ß")) for(i in 1:dim(dictionary)[1]){ x <- gsub(dictionary$symbol[i],dictionary$html[i],x) } x } # my google scholar user id from my profile url # https://scholar.google.com/citations?user=b8bWNkUAAAAJ&hl=en thackl <- "b8bWNkUAAAAJ" # pull from google html_1 <- get_publications(thackl) # convert to htlm table - the ugly way ;) html_2 <- html_1 %>% as_tibble %>% arrange(desc(year)) %>% mutate( # author=str_replace_all(author, " (\\S) ", "\\1 "), author=str_replace_all(author, "([A-Z]) ([A-Z]) ", "\\1\\2 "), author=str_replace_all(author, ", \\.\\.\\.", " et al."), author=str_replace_all(author, "T Hackl", "T Hackl") # make my name fat ) %>% split(.$year) %>% map(function(x){ x <- x %>% glue_data('{author} ({year}) {title}, {journal}, {number}') %>% str_replace_all("(, )+

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