2023.7.10-2023.7.17


July  11  Tue   10:00-11:30     太陽系小天体セミナー   Zoom    


July  12 Wed    10:00-12:00    SOKENDAI Colloquium   

Zoom / the large seminar room (hybrid)


July 12  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  11 Tue===============

キャンパス:三鷹
セミナー名:太陽系小天体セミナー
定例・臨時の別:定例
日時:7月11日(火曜日)10時00分~11時30分
場所:zoom
講演者:西田信幸

世話人の連絡先
 名前:渡部潤一


=============== July 12 Wed ===============

Campus:Mitaka
Seminar:SOKENDAI Colloquium
Regularly Scheduled/Sporadic:Regular
Date and time:July 12, 2023 10:00-12:00
Place:Large Seminar Room in Subaru Building and Zoom

Speaker: Seiya Imai
Affiliation: SOKENDAI 1st year (M1) (Supervisor: Masayuki Tanaka, Yusei Koyama, Kiyoto Yabe)
Title: Revealing chemical evolution of galaxy by extreme emission line galaxy

Speaker : Yoshiaki Sato
Affiliation: SOKENDAI 2nd year (M2) (Supervisor: Noriyuki Narukage, Takashi Sekii, Masumi Shimojo)
Title: Development and Evaluation of Pre-collimator for FOXSI-4 Sounding Rocket Experiment

Speaker: Suzuka Nakano
Affiliation: SOKENDAI 5th year (D3) (Supervisor: Kouichiro Nakanishi, Takashi Sekii, Takuma Izumi)
Title: Mm/submm Energy Diagnostics & Non-LTE Modeling of the AGN-Starburst Composite Galaxy NGC 7469 with ALMA

Facilitator
-Name:Matsuda, Graduate Student Affairs Unit

=============== July 12 Wed ===============

Campus:Mitaka
Seminar:NAOJ Science Colloquium
Regularly Scheduled/Sporadic:Every Wednesday
Date and time:2023 July 12, 15:30-16:30
Place:Zoom / the large seminar room (hybrid)

Speaker:Shubham Bhardwaj
Affiliation:NAOJ (D2)
Title:GRB Optical and X-ray Plateau Properties Classifier Using
Unsupervised Machine Learning
Abstract:
The division of Gamma-ray bursts (GRBs) into different classes, other
than the “short” and “long”, has been an active field of research. We
investigate whether GRBs can be classified based on a broader set of
parameters, including prompt and plateau emission ones. Observational
evidence suggests the existence of more GRB sub-classes, but results so
far are either conflicting or not statistically significant. The novelty
here is producing a machine-learning-based classification of GRBs using
their observed X-rays and optical properties. We used two data samples:
the first, composed of 203 GRBs, is from the Neil Gehrels Swift
Observatory (Swift/XRT, (Gehrels et al. 2004; Burrows et al. 2005)), and
the latter, composed of 134 GRBs, is from the ground-based Telescopes
and Swift/UVOT (Roming et al. 2005). Both samples possess the plateau
emission (a flat part of the light curve happening after the prompt
emission, the main GRB event). We have applied Gaussian Mixture Model
(GMM) to explore multiple parameter spaces and sub-class combinations to
reveal if there is a match between the current observational sub-classes
and the statistical classification. With these samples and algorithm, we
spot a few micro-trends in certain cases, but we cannot conclude that
any clear trend exists in classifying GRBs. These microtrends could
point towards a deeper understanding of the physical meaning of these
classes (e.g., a different environment of the same progenitor or
different progenitors). However, a larger sample and different
algorithms could achieve such goals. Thus, this methodology can lead to
deeper insights in the future.

Speaker:Kiyoaki Doi
Affiliation:NAOJ (D2)
Title:Constraints on the dust size distributions in the HD 163296 disk
from the difference of the apparent dust ring widths between two ALMA Bands
Abstract:
The formation of planets begins with dust coagulation in
protoplanetary disks. Therefore, constraints on the dust size
distribution in the disks can be a clue for understanding planet
formation. In previous studies, the dust size has been estimated by
using the spectral index derived from multi-wavelength observations or
dust polarization observations. However, these studies provide different
results depending on their methods and models and do not reach a consensus.
In this work, we propose a new method to constrain the dust size
distribution by using the wavelength dependency of the dust ring widths.
Since larger dust grains are trapped more effectively in the gas
pressure bump, they form narrower rings. As a result, the dust rings
appear narrower at longer wavelength observations since observations are
sensitive to the dust grains whose size is comparable to the observed
wavelength.
We constrain the dust size distribution in the HD 163296 disk using
ALMA high-resolution observations in Band 6 (1.25 mm) and Band 4 (2.14
mm). We focus on the two clear dust rings in the disk and find that the
outer ring at 100 au appears narrower at the longer wavelength, while
the inner ring at 67 au appears similar between the two bands. We model
a dust ring assuming size-dependent dust trapping at a gas pressure
maxima and investigate the relation between the wavelength dependency of
the ring width and the spectral index, and the dust size distribution.
By comparing the model with the observations, we constrain the maximum
dust size a_max and the exponent of the power law dust size distribution
p. We constrain that 0.9 mm < a_max < 5 mm and p < 3.3 in the inner ring, and 35 mm < a_max > 1000 mm and 3.4 < p < 3.7 in the outer ring.
The larger maximum dust size in the outer ring suggests that the degree
of dust growth is spatially dependent, which could affect the location
of the planetesimal formation.

Facilitator
-Name:Kanji Mori
-Comment:English

2023.7.3-2023.7.9


July  4  Tue   10:00-11:30     太陽系小天体セミナー   Zoom    


July  5 Wed    10:00-12:00    SOKENDAI Colloquium   

Zoom / the large seminar room (hybrid)


July  5 Wed  14:30-15:30     ALMA-J seminar      

Zoom / ALMA building #102 (hybrid)


July 5  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   4 Tue===============

キャンパス:三鷹
セミナー名:太陽系小天体セミナー
定例・臨時の別:定例
日時:7月4日(火曜日)10時00分~11時30分
場所:zoom
講演者:匠あさみ

世話人の連絡先
 名前:渡部潤一
 

=============== July  5 Wed===============

Campus:Mitaka
Seminar:SOKENDAI Colloquium
Regularly Scheduled/Sporadic:Regular
Date and time:July 5, 2023 10:00-12:00
Place:Large Seminar Room in Subaru Building and Zoom

Speaker: Kazuki Watanabe
Affiliation: SOKENDAI 1st year (M1) (Supervisor: Yoshinori Uzawa, Takafumi Kojima, Tai Oshima)
Title: Development of a sub-THz MKID Camera for Deep Space Observation

Speaker : Shubham Bhardwaj
Affiliation: SOKENDAI 3rd year (D1) (Supervisor: Maria Dainotti, Nozomu Tominaga, Kazunari Iwasaki)
Title: GRB Optical and X-ray Plateau Properties Classifier Using Unsupervised Machine Learning

Speaker: Ryota Hatami
Affiliation: SOKENDAI 1st year (M1) (Supervisor: Nozomu Tominaga, Tomoya Takiwaki, Koh Takahashi)
Title: Synthesis of Sc, Ti, and V in supernova

Facilitator
-Name:Matsuda, Graduate Student Affairs Unit

=============== July  5 Wed===============

Campus: Mitaka
Seminar: ALMA-J seminar
Regularly Scheduled/Sporadic: Every Wednesday
Date and time: July 5, 2023 (Wed), 14:30-15:30
Place: ALMA building #102 / Zoom (hybrid)

Speaker: Satoshi Ohashi
Affiliation: NAOJ
Title: Dust enrichment and grain growth in a smooth disk around the DG Tau protostar revealed by ALMA triple bands frequency observations
Abstract: Characterizing the physical properties of dust grains in a protoplanetary disk is critical
to comprehending the planet formation process. Our study presents ALMA high-resolution observations
of the young protoplanetary disk around DG Tau at a 1.3 mm dust continuum. The observations,
with a spatial resolution of 0.04 arcsec, or 5 au, revealed a geometrically thin and smooth disk
without substantial substructures, suggesting that the disk retains the initial conditions of the planet formation.
To further analyze the distributions of dust surface density, temperature, and grain size,
we conducted a multi-band analysis with several dust models, incorporating ALMA archival data
of the 0.87 mm and 3.1 mm dust polarization. The results showed that the Toomre Q parameter is
<2 at a disk radius of 20 au, assuming a dust-to-gas mass ratio of 0.01, which means that a higher
dust-to-gas mass ratio is necessary to stabilize the disk. In addition, grain sizes depend on the dust models,
and were found to be less than 0.1 -1 mm in the inner region (r<20 au), while they exceeded larger than 1 mm
in the outer part. Radiative transfer calculations show that the dust scale height is lower than at least
one-third of the gas scale height. These distributions of dust enrichment, grain sizes, and weak turbulence
strength may have significant implications for the formation of planetesimals through mechanisms such as streaming instability.
We also discuss the CO snowline effect and collisional fragmentation in dust coagulation for the origin of the dust size distribution.

Facilitator: Bunyo Hatsukade, Kouichiro Nakanishi

=============== July  5 Wed===============

Campus:Mitaka
Seminar:NAOJ Science Colloquium
Regularly Scheduled/Sporadic:Every Wednesday
Date and time:2023 July 5, 15:30-16:30
Place:Zoom / the large seminar room (hybrid)

Speaker:Satoshi Okuzumi
Affiliation:Tokyo Institute of Technology
Title:Modeling the thermal evolution of planet-forming disks
Abstract:
The thermal structure of protoplanetary disks determines when and
where planets of different compositions form. However, the thermal
structure of these disks remains largely uncertain due to two main
factors: (1) the existence of strong internal heating sources deep
inside the disks is still unknown, and (2) the cooling rate of the disks
is influenced by micron-sized dust grains and varies as the grains grow
into larger solid bodies. Dust growth can even impact disk heating
induced by magnetic fields, as the grains regulate the disks’ electric
conductivity by capturing plasmas. All these factors indicate that the
temperature structure of the disks evolves as planet formation (dust
evolution) progresses. In this presentation, I will discuss our recent
efforts to model the coupled evolution of dust and the thermal structure
of protoplanetary disks. Specifically, I will highlight the roles played
by magnetic fields, disk shadows, and planet-induced spiral shocks in
shaping the disks’ temperature distribution.

Facilitator:

Name:Kazumasa Ohno
Comment:English

2023.6.26-2023.7.2


June  27  Tue  10:00-11:30      太陽系小天体セミナー   

Zoom /  南棟2階会議室 (hybrid) 


june  28 Wed    10:30-12:00    SOKENDAI Colloquium   

Zoom / the large seminar room (hybrid)


June  28  Wed  13:30-15:00     Solar and Space Plasma Seminar Zoom / Insei Seminar Room (hybrid)


June  28  Wed  14:30-15:30     ALMA-J seminar      

Zoom / ALMA building #102 (hybrid)


June  28  Wed  15:30-16:30     NAOJ Science Colloquium  

Zoom / the large seminar room (hybrid)


June  30  Fri   12:00-13:00,13:30-14:30    Tea Talk     

Zoom / Large Seminar Room (hybrid)


詳細は下記からご覧ください。

“2023.6.26-2023.7.2” の続きを読む

2023.6.19-2023.6.25


June  20  Tue  10:20-16:30      博士後期課程中間報告会 Zoom / the large seminar room (hybrid) 


june  21 Wed    10:30-12:00    SOKENDAI Colloquium   Zoom / the large seminar room (hybrid)


June  21  Wed  14:30-15:30     ALMA-J seminar   Zoom / ALMA building #102 (hybrid)


June  21  Wed  15:30-17:00     NAOJ Science Colloquium   Zoom / the large seminar room (hybrid) 


詳細は下記からご覧ください。

“2023.6.19-2023.6.25” の続きを読む

2023.6.12-2023.618

June  13  Tue  10:30-11:30     太陽系小天体セミナー     Zoom  


june  14 Wed    10:30-12:00    SOKENDAI Colloquium   Zoom / the large seminar room (hybrid)


June  14  Wed  15:30-17:00     NAOJ Science Colloquium   Zoom / the large seminar room (hybrid) 


詳細は下記からご覧ください。

“2023.6.12-2023.618” の続きを読む