Your search keyword '"Uno, Yuri"' showing total 28 results

1. Polycyclic aromatic hydrocarbon (PAH) luminous galaxies in JWST CEERS data

Author

Lin, Yu-Wei, Wu, Cossas K. -W., Ling, Chih-Teng, Goto, Tomotsugu, Kim, Seong Jin, Kilerci, Ece, Hashimoto, Tetsuya, Wang, Po-Ya, Ho, Simon C. -C., Hsiao, Tiger Yu-Yang, Raquel, Bjorn Jasper R., and Uno, Yuri

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

It has been an unanswered question how many dusty galaxies have been undetected from the state-of-the-art observational surveys. JWST enables us to detect faint IR galaxies that have prominent polycyclic aromatic hydrocarbon (PAH) features in the mid-IR wavelengths. PAH is a valuable tracer of star formation and dust properties in the mid-infrared wavelength. The JWST Cosmic Evolution Early Release Science (CEERS) fields provide us with wavelength coverage from 7.7 to 21 $\mu$m using six photometric bands of the mid-infrared instrument (MIRI). We have identified galaxies dominated by mid-IR emission from PAHs, termed PAH galaxies. From our multi-band photometry catalogue, we selected ten PAH galaxies displaying high flux ratios of $\log(S_{15}/S_{10}) > 0.8$. The SED fitting analysis indicates that these galaxies are star-forming galaxies with total IR luminosities of $10^{10}$ $\sim$ $10^{11.5}$ $L_{\odot}$ at z $\sim 1$. The morphology of PAH galaxies does not show any clear signatures of major merging or interaction within the MIRI resolution. The majority of them are on the star-formation main sequence at $z \sim 1$. Our result demonstrates that JWST can detect PAH emissions from normal star-forming galaxies at $z \sim 1$, in addition to ultra-luminous infrared galaxies (ULIRGs) or luminous infrared galaxies (LIRGs)., Comment: 12 pages, 20 figures, 4 tables. Accepted by MNRAS. A summary video is at https://www.youtube.com/watch?v=UtPaVTFM4f8&ab_channel=NTHUCosmology

Published

2024

2. Cosmic star-formation history and black hole accretion history inferred from the JWST mid-infrared source counts

Author

Kim, Seong Jin, Goto, Tomotsugu, Ling, Chih-Teng, Wu, Cossas K. -W., Hashimoto, Tetsuya, Kilerci, Ece, Ho, Simon C. -C., Uno, Yuri, Wang, Po-Ya, and Lin, Yu-Wei

Subjects

Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

With the advent of the James Webb Space Telescope (JWST), extra-galactic source count studies were conducted down to sub-microJy in the mid-infrared (MIR), which is several tens of times fainter than what the previous-generation infrared (IR) telescopes achieved in the MIR. In this work, we aim to interpret the JWST source counts and constrain cosmic star-formation history (CSFH) and black hole accretion history (BHAH). We employ the backward evolution of local luminosity functions (LLFs) of galaxies to reproduce the observed source counts from sub-microJy to a few tens of mJy in the MIR bands of the JWST. The shapes of the LLFs at the MIR bands are determined using the model templates of the spectral energy distributions (SEDs) for five representative galaxy types (star-forming galaxies, starbursts, composite, AGN type 2 and 1). By simultaneously fitting our model to all the source counts in the six MIR bands, along with the previous results, we determine the best-fit evolutions of MIR LFs for each of the five galaxy types, and subsequently estimate the CSFH and BHAH. Thanks to the JWST, our estimates are based on several tens of times fainter MIR sources, the existence of which was merely an extrapolation in previous studies., Comment: 15 pages, 12 figures, published in MNRAS, https://doi.org/10.1093/mnras/stad3499. A summary video is https://youtu.be/Md6wragrYyM

Published

2023

3. Machine Learning Classification of Repeating FRBs from FRB121102

Author

Raquel, Bjorn Jasper R., Hashimoto, Tetsuya, Goto, Tomotsugu, Chen, Bo Han, Uno, Yuri, Hsiao, Tiger Yu-Yang, Kim, Seong Jin, and Ho, Simon C. -C.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies

Abstract

Fast Radio Bursts (FRBs) are mysterious bursts in the millisecond timescale at radio wavelengths. Currently, there is little understanding about the classification of repeating FRBs, based on difference in physics, which is of great importance in understanding their origin. Recent works from the literature focus on using specific parameters to classify FRBs to draw inferences on the possible physical mechanisms or properties of these FRB subtypes. In this study, we use publicly available 1652 repeating FRBs from FRB121102 detected with the Five-hundred-meter Aperture Spherical Telescope (FAST), and studied them with an unsupervised machine learning model. By fine-tuning the hyperparameters of the model, we found that there is an indication for four clusters from the bursts of FRB121102 instead of the two clusters ("Classical" and "Atypical") suggested in the literature. Wherein, the "Atypical" cluster can be further classified into three sub-clusters with distinct characteristics. Our findings show that the clustering result we obtained is more comprehensive not only because our study produced results which are consistent with those in the literature but also because our work uses more physical parameters to create these clusters. Overall, our methods and analyses produced a more holistic approach in clustering the repeating FRBs of FRB121102., Comment: 24 pages, 14 figures, accepted for publication in MNRAS. For summary video, please see https://www.youtube.com/watch?v=wYx6t2G__84&list=PLOpYDs2PkYlYIiKDjDz6r6aKXcXdJZXYb&index=13&ab_channel=NCHUAstronomy

Published

2023

4. Future Constraints on Dark Matter with Gravitationally Lensed Fast Radio Bursts Detected by BURSTT

Author

Ho, Simon C. -C., Hashimoto, Tetsuya, Goto, Tomotsugu, Lin, Yu-Wei, Kim, Seong Jin, Uno, Yuri, and Hsiao, Tiger Y. -Y.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Understanding dark matter is one of the most urgent questions in modern physics. A very interesting candidate is primordial black holes (PBHs; Carr2016). For the mass ranges of $< 10^{-16} M_{\odot}$ and $> 100 M_{\odot}$, PBHs have been ruled out. However, they are still poorly constrained in the mass ranges of $10^{-16} - 100 M_{\odot}$ (Belotsky et al. 2019). Fast radio bursts (FRBs) are millisecond flashes of radio light of unknown origin mostly from outside the Milky Way. Due to their short timescales, gravitationally lensed FRBs, which are yet to be detected, have been proposed as a useful probe for constraining the presence of PBHs in the mass window of $< 100M_{\odot}$ (Mu\~noz et al. 2016). Up to now, the most successful project in finding FRBs has been CHIME. Due to its large field of view (FoV), CHIME is detecting at least 600 FRBs since 2018. However, none of them is confirmed to be gravitationally lensed (Leung et al. 2022). Taiwan plans to build a new telescope, BURSTT dedicated to detecting FRBs. Its survey area will be 25 times greater than CHIME. BURSTT can localize all of these FRBs through very-long-baseline interferometry (VLBI). We estimate the probability to find gravitationally lensed FRBs, based on the scaled redshift distribution from the latest CHIME catalog and the lensing probability function from Mu\~noz et al. (2016). BURSTT-2048 can detect ~ 24 lensed FRBs out of ~ 1,700 FRBs per annum. With BURSTT's ability to detect nanosecond FRBs, we can constrain PBHs to form a part of dark matter down to $10^{-4}M_{\odot}$., Comment: Accepted for publication in ApJ. A summary video is available at this https://youtu.be/yivrtvuMDHE

Published

2023

5. Upper limits on transmitter rate of extragalactic civilizations placed by Breakthrough Listen observations

Author

Uno, Yuri, Hashimoto, Tetsuya, Goto, Tomotsugu, Ho, Simon C. -C., Hsu, Tzu-Yin, and Burns, Ross

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Astrophysics of Galaxies, Astrophysics - Instrumentation and Methods for Astrophysics

Abstract

The Search for Extra-Terrestrial Intelligence (SETI) has been conducted for over sixty years, yet no technosignatures have been identified. Previous studies have focused on stars in our galaxy, with few searches in the extragalactic Universe despite a larger volume being available. Civilizations capable of harvesting energy from a star or a galaxy are classified as KII or KIII on the Kardashev scale, respectively. Technosignatures from such advanced civilizations would be extremely luminous and detectable by current radio telescopes, even from distant galaxies. To explore the frontier of extragalactic SETI, we investigate the likely prevalence of extragalactic civilizations possessing a radio transmitter, known as the transmitter rate, based on observational results from the Breakthrough Listen (BL) observations. We calculated the transmitter rate by considering the background galaxies in the field of view of target stars in BL observations. We used a statistical method to derive the total mass of stars in those background galaxies from a galaxy stellar mass function. Our statistical method suggests that less than one in hundreds of trillions of extragalactic civilizations within 969 Mpc possess a radio transmitter above 7.7$\times$10$^{26}$ W of power, assuming one civilization per one-solar-mass stellar system. Additionally, we cross-matched the BL survey fields with the WISE$\times$SuperCOSMOS Photometric Redshift Catalogue and compared with the statistical method. Our result sets the strictest limits to date on the transmitter rate at such high power levels, emphasizing the high efficiency of searching for radio transmitters in galaxies and the rarity of technologically advanced civilizations in our Universe., Comment: 5 pages, 1 figure, accepted for publication in MNRAS. A summary video is available: https://www.youtube.com/watch?v=_xaRCnLMjsY&t=21s&ab_channel=NCHUAstronomy

Published

2023

6. Classifying a frequently repeating fast radio burst, FRB 20201124A, with unsupervised machine learning

Author

Chen, Bo Han, Hashimoto, Tetsuya, Goto, Tomotsugu, Raquel, Bjorn Jasper R., Uno, Yuri, Kim, Seong Jin, Hsiao, Tiger Y. -Y., and Ho, Simon C. -C.

Subjects

Astrophysics - High Energy Astrophysical Phenomena, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

Fast radio bursts (FRBs) are astronomical transients with millisecond timescales. Although most of the FRBs are not observed to repeat, a few of them are detected to repeat more than hundreds of times. There exist a large variety of physical properties among these bursts, suggesting heterogeneous mechanisms of FRBs. In this paper, we conduct a categorisation on the extremely frequently repeating FRB 20201124A with the assistance of machine learning, as such techniques have the potential to use subtle differences and correlations that humans are unaware of to better classify bursts. The research is carried out by applying the unsupervised Uniform Manifold Approximation and Projection (UMAP) model on the FRB 20201124A data provided by Five-hundred-meter Aperture Spherical radio Telescope (FAST). The algorithm eventually categorises the bursts into three clusters. In addition to the two categories in previous work based on waiting time, a new way for categorisation has been found. The three clusters are either high energy, high frequency, or low frequency, reflecting the distribution of FRB energy and frequency. Importantly, a similar machine learning result is found in another frequently repeating FRB20121102A, implying a common mechanism among this kind of FRB. This work is one of the first steps towards the systematical categorisation of the extremely frequently repeating FRBs., Comment: 8 pages, 9 figures, accepted for publication in MNRAS. For summary video, please see https://www.youtube.com/watch?v=1PPCMKcrIf4&list=PLOpYDs2PkYlYIiKDjDz6r6aKXcXdJZXYb&index=14&ab_channel=NCHUAstronomy

Published

2023

7. The molecular gas kinematics in the host galaxy of non-repeating FRB 180924B

Author

Hsu, Tzu-Yin, Hashimoto, Tetsuya, Hatsukade, Bunyo, Goto, Tomotsugu, Wang, Po-Ya, Ling, Chih Teng, Ho, Simon C. -C., and Uno, Yuri

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast radio bursts (FRBs) are millisecond-duration transients with large dispersion measures. The origin of FRBs is still mysterious. One of the methods to comprehend FRB origin is to probe the physical environments of FRB host galaxies. Mapping molecular-gas kinematics in FRB host galaxies is critical because it results in star formation that is likely connected to the birth of FRB progenitors. However, most previous works of FRB host galaxies have focused on its stellar component. Therefore, we, for the first time, report the molecular gas kinematics in the host galaxy of the non-repeating FRB 180924B at $z= 0.3216$. Two velocity components of the CO (3-2) emission line are detected in its host galaxy with the Atacama Large Millimeter/submillimeter Array (ALMA): the peak of one component ($-155.40$ km s$^{-1}$) is near the centre of the host galaxy, and another ($-7.76$ km s$^{-1}$) is near the FRB position. The CO (3-2) spectrum shows asymmetric profiles with A$_{\rm peak}$ $=2.03\pm 0.39$, where A$_{\rm peak}$ is the peak flux density ratio between the two velocity components. The CO (3-2) velocity map also indicates an asymmetric velocity gradient from $-180$ km s$^{-1}$ to 8 km s$^{-1}$. These results indicate a disturbed kinetic structure of molecular gas in the host galaxy. Such disturbed kinetic structures are reported for repeating FRB host galaxies using HI emission lines in previous works. Our finding indicates that non-repeating and repeating FRBs could commonly appear in disturbed kinetic environments, suggesting a possible link between the gas kinematics and FRB progenitors., Comment: 5 pages, 4 figures, Accepted for publication in MNRAS, https://www.youtube.com/watch?v=CldxLE7Pdwk&t=1s

Published

2022

8. Source counts at 7.7 to 21 $\mu$m in CEERS field with James Webb Space Telescope

Author

Wu, Cossas K. -W., Ling, Chih-Teng, Goto, Tomotsugu, Kilerci, Ece, Kim, Seong Jin, Hashimoto, Tetsuya, Lin, Yu-Wei, Wang, Po-Ya, Uno, Yuri, Ho, Simon C. -C., and Hsiao, Tiger Yu-Yang

Subjects

Astrophysics - Astrophysics of Galaxies, Astrophysics - Cosmology and Nongalactic Astrophysics

Abstract

Source counts -- the number density of sources as a function of flux density -- represent one of the fundamental metrics in observational cosmology due to their straightforward and simple nature. It is an important tool that provides information on galaxy formation and evolution. Source counting is a direct measurement. Compared to advanced analyzes that require more observational input such as luminosity/mass functions, it is less affected by any cosmological parameter assumptions or any errors propagated from luminosities. In this study, we present source counts at the six mid-infrared bands, i.e., 7.7, 10, 12.8, 15, 18, and 21 $\mu$m from the MIR instrument of the James Webb Space Telescope (JWST). Contrasted with the infrared source counts achieved by prior generations of infrared space telescopes, our source counts delve up to $\sim$100 times deeper, showcasing the exceptional sensitivity of the JWST, and aligning with the model predictions based on preceding observations. In a follow-up study, we utilize our source counts to establish a new IR galaxy population evolutionary model that provides a physical interpretation., Comment: 10 pages, 24 figures, accepted for publication in MNRAS, https://youtu.be/xlX25O8T89g

Published

2022

9. BURSTT: Bustling Universe Radio Survey Telescope in Taiwan

Author

Lin, Hsiu-Hsien, Lin, Kai-yang, Li, Chao-Te, Tseng, Yao-Huan, Jiang, Homin, Wang, Jen-Hung, Cheng, Jen-Chieh, Pen, Ue-Li, Chen, Ming-Tang, Chen, Pisin, Chen, Yaocheng, Goto, Tomotsugu, Hashimoto, Tetsuya, Hwang, Yuh-Jing, King, Sun-Kun, Kubo, Derek, Kuo, Chung-Yun, Mills, Adam, Nam, Jiwoo, Oshiro, Peter, Shen, Chang-Shao, Tseng, Hsien-Chun, Wang, Shih-Hao, Wu, Vigo Feng-Shun, Bower, Geoffrey, Chang, Shu-Hao, Chen, Pai-An, Chen, Ying-Chih, Chiang, Yi-Kuan, Fedynitch, Anatoli, Gusinskaia, Nina, Ho, Simon C. -C., Hsiao, Tiger Y. -Y., Hu, Chin-Ping, De Huang, Yau, Garcia, Jose Miguel Jauregui, Kim, Seong Jin, Kuo, Cheng-Yu, Ling, Decmend Fang-Jie, On, Alvina Y. L., Peterson, Jeffrey B., Raquel, Bjorn Jasper R., Su, Shih-Chieh, Uno, Yuri, Wu, Cossas K. -W., Yamasaki, Shotaro, and Zhu, Hong-Ming

Subjects

Astrophysics - Instrumentation and Methods for Astrophysics, Astrophysics - High Energy Astrophysical Phenomena

Abstract

Fast Radio Bursts (FRBs) are bright millisecond-duration radio transients that appear about 1,000 times per day, all-sky, for a fluence threshold 5 Jy ms at 600 MHz. The FRB radio-emission physics and the compact objects involved in these events are subjects of intense active debate. To better constrain source models, the Bustling Universe Radio Survey Telescope in Taiwan (BURSTT) is optimized to discover and localize a large sample of rare, high-fluence, nearby FRBs. This is the population most amenable to multi-messenger, multi-wavelength follow-up, allowing deeper understanding of source mechanisms. BURSTT will provide horizon-to-horizon sky coverage with a half power field-of-view (FoV) of $\sim$10$^{4}$ deg$^{2}$, a 400 MHz effective bandwidth between 300-800 MHz, and sub-arcsecond localization, made possible using outrigger stations hundreds to thousands of km from the main array. Initially, BURSTT will employ 256 antennas. After tests of various antenna designs and optimization of system performance we plan to expand to 2048 antennas. We estimate that BURSTT-256 will detect and localize $\sim$100 bright ($\geq$100 Jy ms) FRBs per year. Another advantage of BURSTT's large FoV and continuous operation will be greatly enhanced monitoring of FRBs for repetition. The current lack of sensitive all-sky observations likely means that many repeating FRBs are currently cataloged as single-event FRBs., Comment: Published version

Published

2022

10. FLASHING: New high-velocity H$_2$O masers in IRAS 18286$-$0959

Author

Imai, Hiroshi, Uno, Yuri, Maeyama, Daichi, Yamaguchi, Ryosuke, Amada, Kei, Hamae, Yuhki, Orosz, Gabor, Gómez, José F., Tafoya, Daniel, Uscanga, Lucero, and Burns, Ross A.

Subjects

Astrophysics - Solar and Stellar Astrophysics, Astrophysics - Astrophysics of Galaxies

Abstract

We discovered new high-velocity components of H$_2$O maser emission in one of the "water fountain" sources, IRAS~18286$-$0959, which has been monitored using the Nobeyama 45 m telescope in the new FLASHING (Finest Legacy Acquisitions of SiO- and H$_2$O-maser Ignitions by Nobeyama Generation) project since 2018 December. The maser spectra show new, extremely high expansion velocities ($>$200~km~s$^{-1}$ projected in the line of sight) components, some of which are located symmetrically in the spectrum with respect to the systemic velocity. They were also mapped with KaVA (KVN and VERA Combined Array) in 2019 March. We located some of these maser components closer to the central stellar system than other high velocity components (50--200~km~s$^{-1}$) that have been confirmed to be associated with the known bipolar outflow. The new components would flash in the fast collimated jet at a speed over 300~km~s$^{-1}$ (soon) after 2011 when they had not been detected. The fastest of the new components seem to indicate rapid deceleration in these spectra, however our present monitoring is still too sparse to unambiguously confirm it (up to 50~km~s$^{-1}$yr$^{-1}$) and too short to reveal their terminal expansion velocity, which will be equal to the expansion velocity that has been observed ($v_{\rm exp}\sim$120~km~s$^{-1}$). Future occurrences of such extreme velocity components may provide a good opportunity to investigate possible recurrent outflow ignitions. Thus sculpture of the parental envelope will be traced by the dense gas that is entrained by the fast jet and exhibits spectacular distributions of the relatively stable maser features., Comment: 11 pages, 5 figures, 2 tables

Published

2020

11. The First VERA Astrometry Catalog

Author

VERA collaboration, Hirota, Tomoya, Nagayama, Takumi, Honma, Mareki, Adachi, Yuuki, Burns, Ross A., Chibueze, James O., Choi, Yoon Kyung, Hachisuka, Kazuya, Hada, Kazuhiro, Hagiwara, Yoshiaki, Hamada, Shota, Handa, Toshihiro, Hashimoto, Mao, Hirano, Ken, Hirata, Yushi, Ichikawa, Takanori, Imai, Hiroshi, Inenaga, Daichi, Ishikawa, Toshio, Jike, Takaaki, Kameya, Osamu, Kaseda, Daichi, Kim, Jeong Sook, Kim, Jungha, Kim, Mi Kyoung, Kobayashi, Hideyuki, Kono, Yusuke, Kurayama, Tomoharu, Matsuno, Masako, Morita, Atsushi, Motogi, Kazuhito, Murase, Takeru, Nakagawa, Akiharu, Nakanishi, Hiroyuki, Niinuma, Kotaro, Nishi, Junya, Oh, Chung Sik, Omodaka, Toshihiro, Oyadomari, Miyako, Oyama, Tomoaki, Sakai, Daisuke, Sakai, Nobuyuki, Sawada-Satoh, Satoko, Shibata, Katsunori M., Shizugami, Makoto, Sudo, Jumpei, Sugiyama, Koichiro, Sunada, Kazuyoshi, Suzuki, Syunsaku, Takahashi, Ken, Tamura, Yoshiaki, Tazaki, Fumie, Ueno, Yuji, Uno, Yuri, Urago, Riku, Wada, Koji, Wu, Yuan Wei, Yamashita, Kazuyoshi, Yamashita, Yuto, Yamauchi, Aya, and Yuda, Akito

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We present the first astrometry catalog from the Japanese VLBI (very long baseline interferometer) project VERA (VLBI Exploration of Radio Astrometry). We have compiled all the astrometry results from VERA, providing accurate trigonometric annual parallax and proper motion measurements. In total, 99 maser sources are listed in the VERA catalog. Among them, 21 maser sources are newly reported while the rest of 78 sources are referred to previously published results or those in preparation for forthcoming papers. The accuracy in the VERA astrometry are revisited and compared with those from the other VLBI astrometry projects such as BeSSeL (The Bar and Spiral Structure Legacy) Survey and GOBELINS (the Gould's Belt Distances Survey) with the VLBA (Very Long Baseline Array). We have confirmed that most of the astrometry results are consistent with each other, and the largest error sources are due to source structure of the maser features and their rapid variation, along with the systematic calibration errors and different analysis methods. Combined with the BeSSeL results, we estimate the up-to-date fundamental Galactic parameter of $R_{0}=7.92\pm0.16_{\rm{stat.}}\pm0.3_{\rm{sys.}}$~kpc and $\Omega_{\odot}=30.17\pm0.27_{\rm{stat.}}\pm0.3_{\rm{sys.}}$~km~s$^{-1}$~kpc$^{-1}$, where $R_{0}$ and $\Omega_{\odot}$ are the distance from the Sun to the Galactic center and the Sun's angular velocity of the Galactic circular rotation, respectively., Comment: 35 pages, 7 figures, accepted for publication in the Publications of the Astronomical Society of Japan

Published

2020

12. Cosmic star-formation history and black hole accretion history inferred from the JWST mid-infrared source counts

Author

Kim, Seong Jin, primary, Goto, Tomotsugu, additional, Ling, Chih-Teng, additional, Wu, Cossas K-W, additional, Hashimoto, Tetsuya, additional, Kilerci, Ece, additional, Ho, Simon C-C, additional, Uno, Yuri, additional, Wang, Po-Ya, additional, and Lin, Yu-Wei, additional

Published

2023

13. Machine learning classification of repeating FRBs from FRB 121102

Author

Raquel, Bjorn Jasper R, primary, Hashimoto, Tetsuya, additional, Goto, Tomotsugu, additional, Chen, Bo Han, additional, Uno, Yuri, additional, Hsiao, Tiger Yu-Yang, additional, Kim, Seong Jin, additional, and Ho, Simon C-C, additional

Published

2023

14. Source counts at 7.7–21 μm in CEERS field with JWST

Author

Wu, Cossas K-W, primary, Ling, Chih-Teng, additional, Goto, Tomotsugu, additional, Kim, Seong Jin, additional, Hashimoto, Tetsuya, additional, Kilerci, Ece, additional, Lin, Yu-Wei, additional, Wang, Po-Ya, additional, Uno, Yuri, additional, Ho, Simon C-C, additional, and Hsiao, Tiger Yu-Yang, additional

Published

2023

15. Polycyclic aromatic hydrocarbon luminous galaxies in JWST CEERS data.

Author

Lin, Yu-Wei, Wu, Cossas K-W, Ling, Chih-Teng, Goto, Tomotsugu, Kim, Seong Jin, Kilerci, Ece, Hashimoto, Tetsuya, Wang, Po-Ya, Ho, Simon C-C, Hsiao, Tiger Yu-Yang, Raquel, Bjorn Jasper R, and Uno, Yuri

Subjects

POLYCYCLIC aromatic hydrocarbons, GALAXIES, STAR formation, INFRARED astronomy

Abstract

It has been an unanswered question how many dusty galaxies have been undetected from the state-of-the-art observational surveys. JWST enables us to detect faint infrared (IR) galaxies that have prominent polycyclic aromatic hydrocarbon (PAH) features in the mid-IR wavelengths. PAH is a valuable tracer of star formation and dust properties in the mid-IR wavelength. The JWST Cosmic Evolution Early Release Science (CEERS) fields provide us with wavelength coverage from 7.7 to 21 μm using six photometric bands of the mid-IR instrument (MIRI). We have identified galaxies dominated by mid-IR emission from PAHs, termed PAH galaxies. From our multiband photometry catalogue, we selected 10 PAH galaxies displaying high flux ratios of log (S 15/ S 10) > 0.8. The SED fitting analysis indicates that these galaxies are star-forming galaxies with total IR luminosities of 1010 ∼ 1011.5 L⊙ at z ∼1. The morphology of PAH galaxies does not show any clear signatures of major merging or interaction within the MIRI resolution. The majority of them are on the star-formation main sequence at z ∼ 1. Our result demonstrates that JWST can detect PAH emissions from normal star-forming galaxies at z ∼ 1, in addition to ultra-luminous infrared galaxies or luminous IR galaxies (LIRGs). [ABSTRACT FROM AUTHOR]

Published

2024

16. Cosmic star-formation history and black hole accretion history inferred from the JWST mid-infrared source counts.

Author

Kim, Seong Jin, Goto, Tomotsugu, Ling, Chih-Teng, Wu, Cossas K-W, Hashimoto, Tetsuya, Kilerci, Ece, Ho, Simon C-C, Uno, Yuri, Wang, Po-Ya, and Lin, Yu-Wei

Subjects

BLACK holes, STAR formation, SPECTRAL energy distribution, STARBURSTS

Abstract

With the advent of the JWST , extragalactic source count studies were conducted down to sub-μJy in the mid-infrared (MIR), which is several tens of times fainter than what the previous-generation infrared (IR) telescopes achieved in the MIR. In this work, we aim to interpret the JWST source counts and constrain cosmic star-formation history (CSFH) and black hole accretion history (BHAH). We employ the backward evolution of local luminosity functions (LLFs) of galaxies to reproduce the observed source counts from sub-μJy to a few tens of mJy in the MIR bands of the JWST. The shapes of the LLFs at the MIR bands are determined using the model templates of the spectral energy distributions (SEDs) for five representative galaxy types (star-forming galaxies, starbursts, composite, AGN type 2 and 1). By simultaneously fitting our model to all the source counts in the six MIR bands, along with the previous results, we determine the best-fitting evolutions of MIR LFs for each of the five galaxy types, and subsequently estimate the CSFH and BHAH. Thanks to the JWST , our estimates are based on several tens of times fainter MIR sources, the existence of which was merely an extrapolation in previous studies. [ABSTRACT FROM AUTHOR]

Published

2024

17. Upper limits on transmitter rate of extragalactic civilizations placed by breakthrough listen observations

Author

Uno, Yuri, primary, Hashimoto, Tetsuya, additional, Goto, Tomotsugu, additional, Ho, Simon C-C, additional, Hsu, Tzu-Yin, additional, and Burns, Ross, additional

Published

2023

18. Classifying a frequently repeating fast radio burst, FRB 20201124A, with unsupervised machine learning

Author

Chen, Bo Han, primary, Hashimoto, Tetsuya, additional, Goto, Tomotsugu, additional, Raquel, Bjorn Jasper R, additional, Uno, Yuri, additional, Kim, Seong Jin, additional, Hsiao, Tiger Y-Y, additional, and Ho, Simon C-C, additional

Published

2023

19. The molecular gas kinematics in the host galaxy of non-repeating FRB 180924B

Author

Hsu, Tzu-Yin, primary, Hashimoto, Tetsuya, additional, Hatsukade, Bunyo, additional, Goto, Tomotsugu, additional, Wang, Po-Ya, additional, Ling, Chih-Teng, additional, Ho, Simon C-C, additional, and Uno, Yuri, additional

Published

2022

20. BURSTT: Bustling Universe Radio Survey Telescope in Taiwan

Author

Lin, Hsiu-Hsien, primary, Lin, Kai-yang, additional, Li, Chao-Te, additional, Tseng, Yao-Huan, additional, Jiang, Homin, additional, Wang, Jen-Hung, additional, Cheng, Jen-Chieh, additional, Pen, Ue-Li, additional, Chen, Ming-Tang, additional, Chen, Pisin, additional, Chen, Yaocheng, additional, Goto, Tomotsugu, additional, Hashimoto, Tetsuya, additional, Hwang, Yuh-Jing, additional, King, Sun-Kun, additional, Kubo, Derek, additional, Kuo, Chung-Yun, additional, Mills, Adam, additional, Nam, Jiwoo, additional, Oshiro, Peter, additional, Shen, Chang-Shao, additional, Tseng, Hsien-Chun, additional, Wang, Shih-Hao, additional, Wu, Vigo Feng-Shun, additional, Bower, Geoffrey, additional, Chang, Shu-Hao, additional, Chen, Pai-An, additional, Chen, Ying-Chih, additional, Chiang, Yi-Kuan, additional, Fedynitch, Anatoli, additional, Gusinskaia, Nina, additional, Ho, Simon C.-C., additional, Hsiao, Tiger Y.-Y., additional, Hu, Chin-Ping, additional, Huang, Yau De, additional, Jáuregui García, José Miguel, additional, Kim, Seong Jin, additional, Kuo, Cheng-Yu, additional, Ling, Decmend Fang-Jie, additional, On, Alvina Y. L., additional, Peterson, Jeffrey B., additional, R. Raquel, Bjorn Jasper, additional, Su, Shih-Chieh, additional, Uno, Yuri, additional, Wu, Cossas K.-W., additional, Yamasaki, Shotaro, additional, and Zhu, Hong-Ming, additional

Published

2022

21. Future Constraints on Dark Matter with Gravitationally Lensed Fast Radio Bursts Detected by BURSTT.

Author

Ho, Simon C.-C., Hashimoto, Tetsuya, Goto, Tomotsugu, Lin, Yu-Wei, Kim, Seong Jin, Uno, Yuri, and Hsiao, Tiger Y.-Y.

Subjects

SOLAR radio bursts, DARK matter, VERY long baseline interferometry, BLACK holes, RADIO telescopes

Abstract

Understanding dark matter is one of the most urgent questions in modern physics. A very interesting candidate is primordial black holes (PBHs). For the mass ranges <10−16 M ⊙ and >100 M ⊙, PBHs have been ruled out. However, they are still poorly constrained in the mass range 10−16–100 M ⊙. Fast radio bursts (FRBs) are millisecond flashes of radio light of unknown origin, mostly from outside the Milky Way. Due to their short timescales, gravitationally lensed FRBs, which are yet to be detected, have been proposed as a useful probe for constraining the presence of PBHs in the mass window of <100 M ⊙. Up to now, the most successful project in finding FRBs has been CHIME. Due to its large field of view, CHIME has detected at least 600 FRBs since 2018. However, none of them is confirmed to be gravitationally lensed. Taiwan plans to build a new telescope, the Bustling Universe Radio Survey Telescope in Taiwan (BURSTT), dedicated to detecting FRBs. Its survey area will be 25 times greater than CHIME. BURSTT can localize all of these FRBs through very long baseline interferometry. We estimate the probability to find gravitationally lensed FRBs, based on the scaled redshift distribution from the latest CHIME catalog and the lensing probability function from Munõz et al. BURSTT-2048 can detect ∼24 lensed FRBs out of ∼1700 FRBs per annum. With BURSTT's ability to detect nanosecond FRBs, we can constrain PBHs to form a part of dark matter down to 10−4 M ⊙. [ABSTRACT FROM AUTHOR]

Published

2023

22. New upper limits of extra-galactic civilizations placed by the past radio SETI obsesrvations

Author

Uno, Yuri, Hashimoto, Tetsuya, Yamasaki, Shotaro, and Tomotsugu Goto

Subjects

Physics::Popular Physics, Astrophysics::High Energy Astrophysical Phenomena, SETI, Astrophysics::Cosmology and Extragalactic Astrophysics, Astrophysics::Galaxy Astrophysics

Abstract

Search for Extra-Terrestrial Intelligence (SETI) has been conducted for more than 60 years, and no technosignatures have yet been detected. Very few searches have been attempted in the extra-galactic Universe, where a much larger volume is available for extragalactic civilizations. According to the Kardashev scale, a civilization that can handle huge energy harvested from a star or a galaxy is called KII or KIII civilization. Hypothetical technosignatures from such advanced civilizations would also be extremely bright, which can be detected by the current radio telescopes even for distant galaxies. However, only a few previous studies have focused on extragalactic civilizations. To explore a frontier of extragalactic SETI, we study the fraction of KII or KIII civilizations possessing radio transmitters on an extragalactic scale. We utilize the data from the past radio SETI observations and a galaxy mass function to statistically constrain the stellar transmitter rate of KII or KIII civilizations in extra galaxies. We set a new upper limit on the galactic transmitter rate, which scales inversely with the number of galaxies in a surveyed volume. The detailed results and discussions will be presented in my poster.

Published

2022

23. The molecular gas kinematics in the host galaxy of non-repeating FRB 180924B.

Author

Hsu, Tzu-Yin, Hashimoto, Tetsuya, Hatsukade, Bunyo, Goto, Tomotsugu, Wang, Po-Ya, Ling, Chih-Teng, Ho, Simon C-C, and Uno, Yuri

Subjects

SOLAR radio bursts, KINEMATICS, MOLECULAR structure, GALAXIES, ACTINIC flux, STAR formation

Abstract

Fast radio bursts (FRBs) are millisecond-duration transients with large dispersion measures. The origin of FRBs is still mysterious. One of the methods to comprehend FRB origin is to probe the physical environments of FRB host galaxies. Mapping molecular-gas kinematics in FRB host galaxies is critical because it results in star formation that is likely connected to the birth of FRB progenitors. However, most previous works of FRB host galaxies have focused on its stellar component. Therefore, we, for the first time, report the molecular gas kinematics in the host galaxy of the non-repeating FRB 180924B at z = 0.3216. Two velocity components of the CO (3 − 2) emission line are detected in its host galaxy with the Atacama Large Millimeter/submillimeter Array (ALMA): the peak of one component (−155.40 km s−1) is near the centre of the host galaxy, and another (−7.76 km s−1) is near the FRB position. The CO (3 − 2) spectrum shows asymmetric profiles with A peak = 2.03 ± 0.39, where A peak is the peak flux density ratio between the two velocity components. The CO (3 − 2) velocity map also indicates an asymmetric velocity gradient from −180 to 8 km s−1. These results indicate a disturbed kinetic structure of molecular gas in the host galaxy. Such disturbed kinetic structures are reported for repeating FRB host galaxies using H  i emission lines in previous works. Our finding indicates that non-repeating and repeating FRBs could commonly appear in disturbed kinetic environments, suggesting a possible link between the gas kinematics and FRB progenitors. [ABSTRACT FROM AUTHOR]

Published

2023

24. The Outcomes of Cord Blood Transplantations Infused with Higher Total Number of Nucleated Cells Were Equivalent to Unrelated Bone Marrow Transplantations

Author

Ishigiwa, Kohei, Morshita, Takanobu, Uno, Yuri, Kubo, Atsushi, Nakatani, Norie, Naito, Tomoki, Domon, Yosuke, Fukuoka, Syo, Kagaya, Yusuke, Goto, Tatsunori, and Nishida, Tetsuya

Published

2023

25. FLASHING: New high-velocity H2O masers in IRAS 18286−0959

Author

Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), European Commission, Japan Society for the Promotion of Science, Australian Research Council, National Key Research and Development Program (China), European Research Council, Universidad de Guanajuato, Imai, Hiroshi, Uno, Yuri, Maeyama, Daichi, Yamaguchi, Ryosuke, Amada, Kei, Hamae, Yuhki, Orosz, Gabor, Gómez Rivero, José Francisco, Tafoya, Daniel, Uscanga, Lucero, Burns, Ross A., Ministerio de Ciencia, Innovación y Universidades (España), Ministerio de Economía y Competitividad (España), European Commission, Japan Society for the Promotion of Science, Australian Research Council, National Key Research and Development Program (China), European Research Council, Universidad de Guanajuato, Imai, Hiroshi, Uno, Yuri, Maeyama, Daichi, Yamaguchi, Ryosuke, Amada, Kei, Hamae, Yuhki, Orosz, Gabor, Gómez Rivero, José Francisco, Tafoya, Daniel, Uscanga, Lucero, and Burns, Ross A.

Abstract

We discovered new high-velocity components of H2O maser emission in one of the “water fountain” sources, IRAS 18286−0959, which has been monitored using the Nobeyama 45 m telescope in the FLASHING (Finest Legacy Acquisitions of SiO- and H2O-maser Ignitions by Nobeyama Generation) project since 2018 December. The maser spectra show new components with extremely high expansion velocities (>200 km s−1 projected in the line of sight), some of which are located symmetrically in the spectrum with respect to the systemic velocity. They were also mapped with KaVA (KVN and VERA Combined Array) in 2019 March. We located some of these maser components closer to the central stellar system than other high-velocity components (50-200 km s−1) that have been confirmed to be associated with the known bipolar outflow. The new components would have flashed in the fast collimated jet at a speed of over 300 km s−1 (soon) after 2011 when they had not been detected. The fastest of the new components seem to indicate rapid deceleration in these spectra; however, our present monitoring is still too sparse to unambiguously confirm it (up to 50 km s−1 yr−1) and too short to reveal their terminal expansion velocity, which will be equal to the expansion velocity that has been observed (vexp ∼ 120 km s−1). Future occurrences of such extreme-velocity components may provide a good opportunity to investigate possible recurrent outflow ignitions. Thus, the sculpture of the parental envelope will be traced by the dense gas that is entrained by the fast jet and exhibits spectacular distributions of the relatively stable maser features. © The Author(s) 2020. Published by Oxford University Press on behalf of the Astronomical Society of Japan.

Published

2020

26. FLASHING: New high-velocity H2O masers in IRAS 18286−0959

Author

Imai, Hiroshi, primary, Uno, Yuri, additional, Maeyama, Daichi, additional, Yamaguchi, Ryosuke, additional, Amada, Kei, additional, Hamae, Yuhki, additional, Orosz, Gabor, additional, Gómez, José F, additional, Tafoya, Daniel, additional, Uscanga, Lucero, additional, and Burns, Ross A, additional

Published

2020

27. FLASHING: New high-velocity H2O masers in IRAS 18286−0959.

Author

Imai, Hiroshi, Uno, Yuri, Maeyama, Daichi, Yamaguchi, Ryosuke, Amada, Kei, Hamae, Yuhki, Orosz, Gabor, Gómez, José F, Tafoya, Daniel, Uscanga, Lucero, and Burns, Ross A

Subjects

*MASERS, *TERMINAL velocity, *FOUNTAINS, *TRACE gases, *ACCELERATION (Mechanics)

Abstract

We discovered new high-velocity components of H2O maser emission in one of the "water fountain" sources, IRAS 18286−0959, which has been monitored using the Nobeyama 45 m telescope in the FLASHING (Finest Legacy Acquisitions of SiO- and H2O-maser Ignitions by Nobeyama Generation) project since 2018 December. The maser spectra show new components with extremely high expansion velocities (>200 km s−1 projected in the line of sight), some of which are located symmetrically in the spectrum with respect to the systemic velocity. They were also mapped with KaVA (KVN and VERA Combined Array) in 2019 March. We located some of these maser components closer to the central stellar system than other high-velocity components (50–200 km s−1) that have been confirmed to be associated with the known bipolar outflow. The new components would have flashed in the fast collimated jet at a speed of over 300 km s−1 (soon) after 2011 when they had not been detected. The fastest of the new components seem to indicate rapid deceleration in these spectra; however, our present monitoring is still too sparse to unambiguously confirm it (up to 50 km s−1 yr−1) and too short to reveal their terminal expansion velocity, which will be equal to the expansion velocity that has been observed (⁠|$v$| exp ∼ 120 km s−1). Future occurrences of such extreme-velocity components may provide a good opportunity to investigate possible recurrent outflow ignitions. Thus, the sculpture of the parental envelope will be traced by the dense gas that is entrained by the fast jet and exhibits spectacular distributions of the relatively stable maser features. [ABSTRACT FROM AUTHOR]

Published

2020

28. The First VERA Astrometry Catalog

Author

Hirota, Tomoya, Nagayama, Takumi, Honma, Mareki, Adachi, Yuuki, Burns, Ross A, Chibueze, James O, Choi, Yoon Kyung, Hachisuka, Kazuya, Hada, Kazuhiro, Hagiwara, Yoshiaki, Hamada, Shota, Handa, Toshihiro, Hashimoto, Mao, Hirano, Ken, Hirata, Yushi, Ichikawa, Takanori, Imai, Hiroshi, Inenaga, Daichi, Ishikawa, Toshio, Jike, Takaaki, Kameya, Osamu, Kaseda, Daichi, Kim, Jeong Sook, Kim, Jungha, Kim, Mi Kyoung, Kobayashi, Hideyuki, Kono, Yusuke, Kurayama, Tomoharu, Matsuno, Masako, Morita, Atsushi, Motogi, Kazuhito, Murase, Takeru, Nakagawa, Akiharu, Nakanishi, Hiroyuki, Niinuma, Kotaro, Nishi, Junya, Oh, Chung Sik, Omodaka, Toshihiro, Oyadomari, Miyako, Oyama, Tomoaki, Sakai, Daisuke, Sakai, Nobuyuki, Sawada-Satoh, Satoko, Shibata, Katsunori M, Shizugami, Makoto, Sudo, Jumpei, Sugiyama, Koichiro, Sunada, Kazuyoshi, Suzuki, Syunsaku, Takahashi, Ken, Tamura, Yoshiaki, Tazaki, Fumie, Ueno, Yuji, Uno, Yuri, Urago, Riku, Wada, Koji, Wu, Yuan Wei, Yamashita, Kazuyoshi, Yamashita, Yuto, Yamauchi, Aya, and Yuda, Akito

Abstract

We present the first astrometry catalog from the Japanese VLBI (very long baseline interferometer) project VERA (VLBI Exploration of Radio Astrometry). We have compiled all the astrometry results from VERA, providing accurate trigonometric-annual-parallax and proper-motion measurements. In total, 99 maser sources are listed in the VERA catalog. Among them, 21 maser sources are newly reported, while the rest of the 78 sources are referred to in previously published results or those in preparation for forthcoming papers. The accuracy in the VERA astrometry is revisited and compared with that from the other VLBI astrometry projects such as BeSSeL (The Bar and Spiral Structure Legacy) Survey and GOBELINS (the Gould’s Belt Distances Survey) with the VLBA (Very Long Baseline Array). We have confirmed that most of the astrometry results are consistent with each other, and the largest error sources are due to source structure of the maser features and their rapid variation, along with the systematic calibration errors and different analysis methods. Combined with the BeSSeL results, we estimate the up-to-date fundamental Galactic parameters of $R_{0}=7.92\pm 0.16_{\rm {stat.}}\pm 0.3_{\rm {sys.}}\:$kpc and $\Omega _{\odot }=30.17\pm 0.27_{\rm {stat.}}\pm 0.3_{\rm {sys.}}\:$km$\:$s$^{-1}\:$kpc$^{-1}$, where $R_{0}$and $\Omega _{\odot }$are the distance from the Sun to the Galactic center and the Sun’s angular velocity of the Galactic circular rotation, respectively.

Published

2020