July 19 Wed 10:30-12:00 SOKENDAI Colloquium
Zoom / the large seminar room (hybrid)
July 19 Wed 13:30-14:30 NAOJ Seminar
Zoom / the large seminar room (hybrid)
July 19 Wed 15:30-16:30 NAOJ Science Colloquium
Zoom / the large seminar room (hybrid)
詳細は下記からご覧ください。
=============== July 19 Wed===============
Campus:Mitaka
Seminar:SOKENDAI Colloquium
Regularly Scheduled/Sporadic:Regular
Date and time:July 19, 2023 10:30-12:00
Place:Large Seminar Room in Subaru Building and Zoom
Speaker: Miho Tan
Affiliation: SOKENDAI 1st year (M1) (Supervisor: Mami Machida, Tomoya Takiwaki, Kazunari Iwasaki)
Title: The history of mass ratio determination of X-Ray Binary SS433
Speaker : Kousuke Ishihara
Affiliation: SOKENDAI 4th year (D2) (Supervisor: Masao Saito, Fumitaka Nakamura, Patricio Sanhueza)
Title: Observational study of the fragmentation process in nearby star-forming regions
Facilitator
-Name:Matsuda, Graduate Student Affairs Unit
=============== July 19 Wed===============
Campus:Mitaka
Seminar:NAOJ Seminar
Regularly Scheduled/Sporadic:Spordiac
Date and time:2023 July 19, 13:30-14:30
Place:Zoom / the large seminar room (hybrid)
Speaker:Prof. Dr.Reinhard Genzel
Affiliation:Max-Planck Institute for Extraterrestrial Physics, Garching, Germany
Title:Testing the Massive Black Hole Paradigm in the Galactic Center
Abstract:
The discovery of the Quasars in the 1960s led to the ‘massive black hole paradigm’ in which most galaxies host massive black holes of masses
between millions to billions of solar masses at their nuclei, which can become active galactic nuclei
and quasars when they accrete gas and stars rapidly. I will discuss the major progress that has happened
in the last decades to prove the massive black hole paradigm through ever more detailed, high resolution observations,
in the center of our own Galaxy, as well as in external galaxies and even in distant quasars.
In the Galactic Center such high resolution observations can also be used to test General Relativity in the regime of large masses and curvatures.
Facilitator
-Name:Fumitaka Nakamura
=============== July 19 Wed===============
Campus:Mitaka
Seminar:NAOJ Science Colloquium
Regularly Scheduled/Sporadic:Every Wednesday
Date and time:2023 July 19, 15:30-16:30
Place:Zoom / the large seminar room (hybrid)
Speaker:Masato Sato
Affiliation:NAOJ (D2)
Title:Light curves of electron capture and Fe core collapse supernovae:
The diagnostic method of electron capture supernovae
Abstract:
While massive stars (M>~10Msun) explode as Fe core collapse supernovae
(FeCCSNe) at their last moment, those have slightly lower mass
(M~8-10Msun) are theoretically expected to form O+Ne+Mg degenerated
core, become Super Asymptotic Giant Branches (SAGB) and finally explode
as electron capture supernovae (ECSNe) if their envelope is remained
(Miyaji et al. 1980; Nomoto et al. 1982; Nomoto 1984, 1987). However,
such evolutionary path and the mass boundary between FeCCSN and ECSN are
not confirmed and constrained by observation because of insufficient
observations of ECSNe. The reasons why we could hardly diagnose ECSN
clearly are that observational characteristics of ECSNe comparing to
low-mass FeCCSNe are not understood sufficiently, and the diagnostic
method of ECSNe is not established yet. Although Kozyreva et al. (2021)
shows that ECSN has blue plateau, they don’t include circumstellar
material (CSM) interaction. However, CSM interaction might change the
light curve significantly (Moriya et al. 2018). Thus, we synthesized the
multicolor light curves of ECSNe and low-mass FeCCSNe including CSM
interaction using the multi-group radiation hydrodynamics code, STELLA
(Blinnikov et al. 1993). As a result, ECSN is revealed to show bluer
plateau than low-mass FeCCSN even if it has reasonably dense CSM. Using
this characteristic, we propose the first diagnostic method of ECSN in
which the transition time from plateau to tail phase (tPT) and the color
index B-V at tPT/2 are used. In the talk, we will show the calculated
light curves of ECSN and low-mass FeCCSN and discuss their
characteristics. In addition, we will propose the diagnostic method of
ECSN. Also, we will mention our future work in which we will try to find
an ECSN and reveal its nature.
Speaker:Kaho Morii
Affiliation:NAOJ (D2)
Title:Early Fragmentation in Infrared Dark Clouds
Abstract:
The study of infrared dark clouds (IRDCs) sheds light on the initial
conditions governing the formation of high-mass stars and stellar
clusters. We have conducted high-angular resolution and high-sensitivity
observations toward thirty-nine massive IRDC clumps, mosaicked by the
Atacama Large Millimeter/submillimeter Array. These clumps,
characterized by their darkness at 70 μm, as well as their density and
low temperature, are thought to be the ideal sites as the birthplace of
high-mass stars. We succeeded in identifying an unprecedented number of
839 cores, with masses between 0.05 and 81 Msun. With this large sample,
we investigated the fragmentation properties in the very early stage of
high-mass star formation. By employing the minimum spanning tree method,
we calculated core separations ranging from 0.1 pc to 0.4 pc. To discern
the dominant mechanism behind early fragmentation, as well as the
hierarchical nature of the process, we compared these observed core
separations and masses with those expected from Jeans length and masses,
respectively. Our analysis implies that thermal Jeans fragmentation of
clumps is the dominant mechanism deriving the observed properties
especially for the formation of gravitationally bound cores.
Additionally, we find that some clumps exhibit a wide dynamic range of
core masses, spanning from low to high masses while others show a
narrower range. Clumps with a higher protostellar core fraction tend to
display a wider range. Furthermore, our sample highlights the complex
nature of fragmentation, characterized by various patterns such as
aligned, spread, and concentrated distributions. These findings provide
valuable insights into the mechanisms deriving high-mass star formation.
Facilitator
-Name:Haruka Kusakabe
-Comment:English