Dept. of Interdisciplinary Space Science

Chisato Ikuta

  (生田 ちさと)

Profile Information

Affiliation
Research Associate, Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency
Degree
Doctor (Scinence)(The University of Tokyo)

J-GLOBAL ID
200901062501377515
researchmap Member ID
5000043207

Papers

 14
  • Chisato Ikuta
    Communicating Astronomy with the Public Journal, 31 8-21, Oct, 2022  Peer-reviewedLead authorCorresponding author
  • Communicating Astronomy with the Public Journal, 15 24, Jul, 2014  Peer-reviewedLast authorCorresponding author
  • Chisato Ikuta
    Astronomy and Astrophysics, 472(1) 77-85, Sep, 2007  Peer-reviewedLead author
    Context. Formation and evolution of elliptical galaxies are still matters of debate. Knowledge of their star formation histories (SFHs) is essential to understand the formation mechanism. Colour-magnitude (C-M) diagrams of elliptical galaxies should provide one of the most important clues to resolve the SFHs of the elliptical galaxies. Aims. The aim of this study is to illustrate what information can be obtained from C-M diagrams of elliptical galaxies and what differences appear in theoretical C-M diagrams of different formation scenarios. Methods. Using a C-M diagram simulator which consistently solves SFH and chemical evolution, we present and discuss six examples of model C-M diagrams. The C-M diagrams can be considered a first approach to the theoretical C-M diagrams of elliptical galaxies of which formation is described as the monolithic collapse and the hierarchical scenarios. Results. We show that there are three main differences in the C-M diagrams between the two formation scenarios the magnitude of main sequence turnoff (MSTO), horizontal branch (HB) morphology, and colour distribution of red giant branch (RGB) stars. Since a later epoch of the final star formation is assumed in the hierarchical model, the magnitude of the MSTO is brighter than that of the monolithic collapse. The C-M diagram predicted by the hierarchical scenario shows well-defined blue HB. On the other hand, the C-M diagram shows few blue HB stars in the monolithic collapse case. The colour distributions predicted by the former have bluer peaks than those by the latter. We find that this corresponds to a higher frequency of metal-poor stars in the former model and metal-poor populations are born in the progenitor galaxies. In addition to the model C-M diagrams, we discuss metallicity distributions and α/Fe abundance patterns predicted by the two scenarios. © ESO 2007.
  • O. Nakamura, A. Aragon-Salamanca, B. Milvang-Jensen, N. Arimoto, C. Ikuta, S. P. Bamford
    Monthly Notices of the Royal Astronomical Society, 366(1) 144-162, Feb 11, 2006  Peer-reviewed
    We have carried out spectroscopic observations in four cluster fields using Subaru's FOCAS multislit spectrograph and obtained spectra for 103 bright disc field and cluster galaxies at 0.06 ≤ z ≤ 120. 77 of these show emission lines, and 33 provide reasonably secure determinations of the galaxies' rotation velocity. The rotation velocities, luminosities, colours and emission-line properties of these galaxies are used to study the possible effects of the cluster environment on the star formation history of the galaxies. Comparing the Tully-Fisher relations of cluster and field galaxies at similar redshifts we find no measurable difference in rest-frame B-band luminosity at a given rotation velocity (the formal difference is 0.18 ± 0.33 mag). The colours of the cluster emission line galaxies are only marginally redder in rest-frame B - V (by 0.06 ± 0.04 mag) than the field galaxies in our sample. Taken at face value, these results seem to indicate that bright star-forming cluster spirals are similar to their field counterparts in their star formation properties. However, we find that the fraction of disc galaxies with absorption-line spectra (i.e. with no current star formation) is larger in clusters than in the field by a factor of ∼3-5. This suggests that the cluster environment has the overall effect of switching off star formation in (at least) some spiral galaxies. To interpret these observational results, we carry out simulations of the possible effects of the cluster environment on the star formation history of disc galaxies and thus their photometric and spectroscopic properties. This allows us to create mock samples of unperturbed 'field' galaxies with approximately constant star formation rates (SFRs) and perturbed 'cluster' galaxies with different star formation histories, including star formation truncation, with or without an associated starburst. We show that, if we select only bright galaxies with current star formation (i.e. with emission lines strong enough for rotation-curve measurements), the average colours and luminosities of the 'cluster' galaxies may not be very different from those of galaxies in the 'field' sample, even though their star formation histories may be significantly different. However, the fraction of emission and absorption-line galaxies would change significantly. We also use these simulations to estimate the size of field and cluster galaxy samples that would allow us to differentiate the different star formation scenarios considered. Finally, we find that the rest-frame absolute B-band magnitude of the field galaxies in our sample shows an evolution of -1.30 ± 1.04mag per unit redshift at fixed rotation velocity. This indicates that the average SFR of bright disc galaxies evolves more slowly than the universal SFR as determined from ultraviolet, Hα, far-infrared and radio studies. This suggests the evolution of the universal SFR density is not dominated by bright star-forming disc galaxies, in agreement with previous studies. © 2005 RAS.
  • X. Kong, E. Daddi, N. Arimoto, A. Renzini, T. Broadhurst, A. Cimatti, C. Ikuta, K. Ohta, L. da Costa, L. F. Olsen, M. Onodera, N. Tamura
    The Astrophysical Journal, 638(1) 72-87, Feb 10, 2006  Peer-reviewed

Misc.

 1

Presentations

 11

Teaching Experience

 3

Professional Memberships

 2

Research Projects

 2

Academic Activities

 6

Social Activities

 29

● 専任大学名

 1
  • Affiliation (university)
    総合研究大学院大学(SOKENDAI)

● 所属する所内委員会

 3
  • ISAS Committee
    ISAS広報委員会
  • ISAS Committee
    ISASニュース編集委員会
  • ISAS Committee
    IPMU-ISAS大学共同利用連携拠点 運営協議会