年別アーカイブ: 2015年

The morphologies and stellar population of high-z galaxies at 0.5<z<2.5; star-forming main sequence, clumpy galaxies and passive galaxies / Star Forming Molecular Gas in Merging Galaxies ~ASTE Observation~

[Speaker 1]
Sumire Tatehora, D3, SOKENDAI (supervisor: Nobuo Arimoto)
[Title]
The morphologies and stellar population of high-z galaxies at 0.5<z<2.5; star-forming main sequence, clumpy galaxies and passive galaxies

[Speaker 2]
Tomonari Michiyama, M2, SOKENDAI (supervisor: D. Iono)
[Title]
Star Forming Molecular Gas in Merging Galaxies ~ASTE Observation~

The Study of Large-scale Structure based on Wide – imaging observations using HSC / Review of “VLT/FLAMES Spectroscopy of Red Giant Branch Stars in the Fornax Dwarf Spheroidal Galaxy (Lemasle, B. et al. 2014)”

[Speaker 1]
Hisakazu Uchiyama, D1, SOKENDAI(supervisor: Nobunari Kashikawa)
[Title]
The Study of Large-scale Structure based on Wide – imaging observations using HSC

[Speaker 2]
Tadafumi Matsuno, M1, SOKENDAI(supervisor: Wako Aoki)
[Title]
Review of “VLT/FLAMES Spectroscopy of Red Giant Branch Stars in the Fornax Dwarf Spheroidal Galaxy (Lemasle, B. et al. 2014)”

平成27年度サマーステューデント成果発表会

9月4日(金)、国立天文台三鷹キャンパスにて、平成27年度サマーステューデント成果発表会が開催されました。
今年で6年目となる本プログラムですが、今年は19名の学生が岡山、水沢、三鷹など、国立天文台の様々なキャンパスで体験研究を行いました。
(受入プロジェクト宛に参加者から感想文が届きました。ページ末尾にリンクをはっています。)
続きを読む

Formation Mechanisms of HC5N in TMC-1 as Studied by 13C and 15N Isotopic Fractionation / The condition of molecular gas in starburst galaxy / Estimating a reconnection rate based on an observation of inflow and flare ribbon expansion

[Speaker1]
TANIGUCHI Kotomi , D1, SOKENDAI, Mitaka(supervisor: SAITO Masao)
[Title]
Formation Mechanisms of HC5N in TMC-1 as Studied by 13C and 15N Isotopic Fractionation
[Abstract]
Observations of 13C isotopic fractionation is key to reveal main formation mechanisms of carbon-chain molecules. HC5N is generally though to be formed by growth of carbon chain of HC3N. I carried out observations of the normal species and the five 13C isotopologues of HC5N in order to confirm its main formation pathway. I found that main formation mechanism of HC5N is ion-molecule reactions involving a nitrogen atom. I also conducted quantitative evaluation of contributions of each pathway using the 14N/15N and 12C/13C ratios, and concluded that about 70% of HC5N molecules have been formed by the ion-molecule reactions involving a nitrogen atom.

[Speaker2]
Misaki Ando , M1, SOKENDAI, Mitaka(supervisor: Daisuke Iono)
[Title]
The condition of molecular gas in starburst galaxy

[Speaker3]
Yoshida Masaki , M1, SOKENDAI, Mitaka(supervisor: Suematsu Yoshinori)
[Title]
Estimating a reconnection rate based on an observation of inflow and flare ribbon expansion