Your search keyword '"Hanaoka, Misaki"' showing total 27 results

1. FOREST Unbiased Galactic plane Imaging survey with the Nobeyama 45 m telescope (FUGIN). VI. Dense gas and mini-starbursts in the W43 giant molecular cloud complex

Author

Kohno, Mikito, Tachihara, Kengo, Torii, Kazufumi, Fujita, Shinji, Nishimura, Atsushi, Kuno, Nario, Umemoto, Tomofumi, Minamidani, Tetsuhiro, Matsuo, Mitsuhiro, Kiridoshi, Ryosuke, Tokuda, Kazuki, Hanaoka, Misaki, Tsuda, Yuya, Kuriki, Mika, Ohama, Akio, Sano, Hidetoshi, Hasegawa, Tetsuo, Sofue, Yoshiaki, Habe, Asao, Onishi, Toshikazu, and Fukui, Yasuo

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We performed new large-scale $^{12}$CO, $^{13}$CO, and C$^{18}$O $J=$1--0 observations of the W43 giant molecular cloud complex in the tangential direction of the Scutum arm ($l\sim {30^\circ}$) as a part of the FUGIN project. The low-density gas traced by $^{12}$CO is distributed over 150 pc $\times$ 100 pc ($l \times b$), and has a large velocity dispersion (20-30 km s$^{-1}$). However, the dense gas traced by C$^{18}$O is localized in the W43 Main, G30.5, and W43 South (G29.96-0.02) high-mass star-forming regions in the W43 GMC complex, which have clumpy structures. We found at least two clouds with a velocity difference of $\sim$ 10-20 km s$^{-1}$, both of which are likely to be physically associated with these high-mass star-forming regions based on the results of high $^{13}$CO $J=$ 3-2 to $J =$ 1-0 intensity ratio and morphological correspondence with the infrared dust emission. The velocity separation of these clouds in W43 Main, G30.5, and W43 South is too large for each cloud to be gravitationally bound. We also revealed that the dense gas in the W43 GMC has a high local column density, while "the current SFE" of entire the GMC is low ($\sim 4\%$) compared with the W51 and M17 GMC. We argue that the supersonic cloud-cloud collision hypothesis can explain the origin of the local mini-starbursts and dense gas formation in the W43 GMC complex., Comment: 51 pages, 34 figures, 6 tables, accepted for publication in PASJ

Published

2020

2. A systematic study of Galactic infrared bubbles along the Galactic plane with AKARI and Herschel. II. Spatial distributions of dust components around the bubbles

Author

Hanaoka, Misaki, Kaneda, Hidehiro, Suzuki, Toyoaki, Kokusho, Takuma, Oyabu, Shinki, Ishihara, Daisuke, Kohno, Mikito, Furuta, Takuya, Tsuchikawa, Takuro, and Saito, Futoshi

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Galactic infrared (IR) bubbles, which can be seen as shell-like structures at mid-IR wavelengths, are known to possess massive stars within their shell boundaries. In our previous study, Hanaoka et al. (2019) expanded the research area to the whole Galactic plane ($0^{\circ} \leq l \leq 360^{\circ}$, $|b| \leq 5^{\circ}$) and studied systematic differences in the shell morphology and the IR luminosity of the IR bubbles between inner and outer Galactic regions. In this study, utilizing high spatial-resolution data of AKARI and WISE in the mid-IR and Herschel in the far-IR, we investigate the spatial distributions of dust components around each IR bubble to discuss the relation between the star-formation activity and the dust properties of the IR bubbles. For the 247 IR bubbles studied in Hanaoka et al. (2019), 165 IR bubbles are investigated in this study, which have the Herschel data ($|b| \leq 1^{\circ}$) and known distances. We created their spectral energy distributions on a pixel-by-pixel basis around each IR bubble, and decomposed them with a dust model consisting of polycyclic aromatic hydrocarbons (PAHs), hot dust, warm dust and cold dust. As a result, we find that the offsets of dust heating sources from the shell centers in inner Galactic regions are systematically larger than those in outer Galactic regions. Many of the broken bubbles in inner Galactic regions show large angles between the offset and the broken shell directions from the center. Moreover, the spatial variations of the PAH intensity and cold dust emissivity around the IR bubbles in inner Galactic regions are larger than those in outer Galactic regions. We discuss these results in light of the interstellar environments and the formation mechanism of the massive stars associated with the IR bubbles., Comment: 20 pages, 14 figures, accepted for publication in PASJ

Published

2019

3. A systematic study of Galactic infrared bubbles along the Galactic plane with AKARI and Herschel

Author

Hanaoka, Misaki, Kaneda, Hidehiro, Suzuki, Toyoaki, Kokusho, Takuma, Oyabu, Shinki, Ishihara, Daisuke, Kohno, Mikito, Furuta, Takuya, Tsuchikawa, Takuro, and Saito, Futoshi

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

Galactic infrared (IR) bubbles, which have shell-like structures in the mid-IR wavelengths, are known to contain massive stars near their centers. IR bubbles in inner Galactic regions ($|$l$|\leq$ 65$^{\circ}$, $|$b$|\leq$ 1$^{\circ}$) have so far been studied well to understand the massive star formation mechanisms. In this study, we expand the research area to the whole Galactic plane (0$^{\circ}\leq$ l $<$360$^{\circ}$, $|$b$|\leq$ 5$^{\circ}$), using the AKARI all-sky survey data. We limit our study on large bubbles with angular radii of $>1'$ to reliably identify and characterize them. For the 247 IR bubbles in total, we derived the radii and the covering fractions of the shells, based on the method developed in \citet{Hattori2016}. We also created their spectral energy distributions, using the AKARI and Herschel photometric data, and decomposed them with a dust model, to obtain the total IR luminosity and the luminosity of each dust component, i.e., polycyclic aromatic hydrocarbons (PAHs), warm dust and cold dust. As a result, we find that there are systematic differences in the IR properties of the bubbles between inner and outer Galactic regions. The total IR luminosities are lower in outer Galactic regions, while there is no systematic difference in the range of the shell radii between inner and outer Galactic regions. More IR bubbles tend to be observed as broken bubbles rather than closed ones and the fractional luminosities of the PAH emission are significantly higher in outer Galactic regions. We discuss the implications of these results for the massive stars and the interstellar environments associated with the Galactic IR bubbles., Comment: 39 pages, 12 figures, accepted for publication in PASJ

Published

2018

4. CO observations toward the isolated mid-infrared bubble S44: External triggering of O-star formation by a cloud-cloud collision

Author

Kohno, Mikito, Tachihara, Kengo, Fujita, Shinji, Hattori, Yusuke, Torii, Kazufumi, Nishimura, Atsushi, Hanaoka, Misaki, Yoshiike, Satoshi, Enokiya, Rei, Hasegawa, Keisuke, Ohama, Akio, Sano, Hidetoshi, Yamamoto, Hiroaki, and Fukui, Yasuo

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We have performed a multi-wavelength study of the mid-infrared bubble S44 to investigate the origin of isolated high-mass star(s) and the star-formation process around the bubble formed by the HII region. In this paper, we report the results of new CO observations ($^{12}$CO, $^{13}$CO $J=$1-0, and $^{12}$CO $J=$3-2) toward the isolated bubble S44 using the NANTEN2, Mopra, and ASTE radio telescopes. We found two velocity components in the direction of the bubble, at $-84$ km s$^{-1}$ and $-79$ km s$^{-1}$. These two clouds are likely to be physically associated with the bubble,both because of the enhanced $^{12}$CO $J=$3-2/1-0 intensity ratio from a ring-like structure affected by ultraviolet radiation from embedded high-mass star(s) and from the morphological correspondence between the 8 $\mu$m emission and the CO distribution. Assuming a single object, we estimate the spectral type of the embedded star inside the bubble to be O8.5-9 ($\sim 20 M_{\odot}$) from the radio-continuum free-free emission. We hypothesize that the two clouds collided with each other 3 Myr ago, triggering the formation of the isolated high-mass star in S44, as also occurred with RCW 120 and RCW 79. We argue that this scenario can explain the origin of the isolated O-star inside the bubble., Comment: 21 pages, 12 figures, and 3 tables, accepted for publication in PASJ

Published

2018

5. Phonon transport simulation with an extended VOF scheme for nano-structured thin film

Author

Takahara, Yoshiya, primary, Matsumoto, Mitsuhiro, additional, Hanaoka, Misaki, additional, and Iwakawa, Manabu, additional

Published

2024

6. Mid- and far-infrared properties of Spitzer Galactic bubbles revealed by the AKARI all-sky surveys

Author

Hattori, Yasuki, Kaneda, Hidehiro, Ishihara, Daisuke, Fukui, Yasuo, Torii, Kazufumi, Hanaoka, Misaki, Kokusho, Takuma, Kondo, Akino, Shichi, Kazuyuki, Ukai, Sota, Yamagishi, Mitsuyoshi, and Yamaguchi, Yuta

Subjects

Astrophysics - Astrophysics of Galaxies

Abstract

We have carried out a statistical study on the mid- and far-infrared (IR) properties of Galactic IR bubbles observed by Spitzer. Using the Spitzer 8 ${\mu}{\rm m}$ images, we estimated the radii and covering fractions of their shells, and categorized them into closed, broken and unclassified bubbles with our data analysis method. Then, using the AKARI all-sky images at wavelengths of 9, 18, 65, 90, 140 and 160 ${\mu}{\rm m}$, we obtained the spatial distributions and the luminosities of polycyclic aromatic hydrocarbon (PAH), warm and cold dust components by decomposing 6-band spectral energy distributions with model fitting. As a result, 180 sample bubbles show a wide range of the total IR luminosities corresponding to the bolometric luminosities of a single B-type star to many O-type stars. For all the bubbles, we investigated relationships between the radius, luminosities and luminosity ratios, and found that there are overall similarities in the IR properties among the bubbles regardless of their morphological types. In particular, they follow a power-law relation with an index of $\sim$3 between the total IR luminosity and radius, as expected from the conventional picture of the Str$\rm{\ddot{o}}$mgren sphere. The exceptions are large broken bubbles; they indicate higher total IR luminosities, lower fractional luminosities of the PAH emission, and dust heating sources located nearer to the shells. We discuss the implications of those differences for a massive star-formation scenario., Comment: 59 pages, 15 figures (figs. 1, 3, 9, 10, 13 and 14 uploaded with low-resolution), accepted for publication in PASJ

Published

2016

7. High-sensitivity thermal diode infrared sensors using a thin metal film absorber

Author

Kobayashi, Satoi, primary, Shintani, Kenji, additional, Hanaoka, Misaki, additional, Hata, Hisatoshi, additional, Fujisawa, Daisuke, additional, Imaki, Masaharu, additional, and Suzuki, Naoki, additional

Published

2023

8. A Demonstration of TIA Using FD-SOI CMOS OPAMP for Far-Infrared Astronomy

Author

Nagase, Koichi, Wada, Takehiko, Ikeda, Hirokazu, Arai, Yasuo, Ohno, Morifumi, Hanaoka, Misaki, Kanada, Hidehiro, Oyabu, Shinki, Hattori, Yasuki, Ukai, Sota, Suzuki, Toyoaki, Watanabe, Kentaroh, Baba, Shunsuke, Kochi, Chihiro, and Yamamoto, Keita

Published

2016

9. Evaluation of temperature measurement using 80 × 32 silicon-on-insulator diode uncooled infrared focal plane array

Author

Hanaoka, Misaki, primary, Kosasayama, Yasuhiro, additional, Hata, Hisatoshi, additional, Shintani, Kenji, additional, Kamiya, Masashi, additional, Fujisawa, Daisuke, additional, Yamamuka, Mikio, additional, and Miwa, Shotaro, additional

Published

2022

10. 80×32 SOI diode-based uncooled IRFPAs for thermal detectors

Author

Hanaoka, Misaki, primary, Kosasayama, Yasuhiro, additional, Hata, Hisatoshi, additional, Shintani, Kenji, additional, Maegawa, Tomohiro, additional, Hattori, Masaharu, additional, Takahashi, Yoshinori, additional, Yamagata, Yusuke, additional, Fujisawa, Daisuke, additional, Yamamuka, Mikio, additional, Takenaga, Takashi, additional, and Ota, Akira, additional

Published

2021

11. A systematic study of Galactic infrared bubbles along the whole Galactic plane with the AKARI all-sky surveys

Author

Hanaoka, Misaki, Kaneda, Hidehiro, Suzuki, Toyoaki, Kokusho, Takuma, Oyabu, Shinki, and Ishihara, Daisuke

Subjects

Milky Way, Massive star formation, Bubbles, ISM, Dust extinction

Abstract

第4回「あかり」国際会議 (2017年10月17-20日. 東京大学), 文京区, 東京, The 4th AKARI International Conference: The Cosmic Wheel and the Legacy of the AKARI archive: from galaxies and stars to planets and life (October 17-20, 2017. The University of Tokyo), Bunkyo-ku, Tokyo, Japan, Galactic infrared (IR) bubbles are known to contain massive stars near their centers, and crucial to study massive star formation mechanisms. In our previous study (Hattori et al. 2016), IR bubbles located in inner Galactic regions (absolute value of l less than or equal to 65 deg, absolute value of b less than or equal to 1 deg) are classified into broken and closed bubbles, depending on their morphologies, to find that the broken bubbles are indicative of cloud-cloud collision. We expand the previous study to the whole Galactic plane using the AKARI all-sky survey data. We limit our study on large (R greater than 1') bubbles to reliably identify and classify them even in outer Galactic regions and relatively high-latitude regions where neither Spitzer nor Herschel data are available. As a result, we newly discover about 100 Galactic IR bubbles in outer Galactic regions (absolute value of l greater than 65 deg, absolute value of b less than or equal to 5 deg). We find that a significantly higher fraction of bubbles are classified into broken ones in outer Galactic regions than in inner Galactic regions. Following the same procedure as in Hattori et al. (2016), we also examine the properties of the bubbles, decomposing their spectral energy distributions consisting of AKARI and Herschel photometric data with a dust model. In the paper, we show the result of our comparative study on the properties of the Galactic IR bubbles between the inner and outer Galactic regions, and discuss the cause of their systematic difference., 形態: カラー図版あり, Physical characteristics: Original contains color illustrations, 資料番号: AA1730026061, レポート番号: JAXA-SP-17-009E

Published

2018

12. FOREST unbiased Galactic plane imaging survey with the Nobeyama 45 m telescope (FUGIN). VI. Dense gas and mini-starbursts in the W 43 giant molecular cloud complex

Author

Kohno, Mikito, primary, Tachihara, Kengo, additional, Torii, Kazufumi, additional, Fujita, Shinji, additional, Nishimura, Atsushi, additional, Kuno, Nario, additional, Umemoto, Tomofumi, additional, Minamidani, Tetsuhiro, additional, Matsuo, Mitsuhiro, additional, Kiridoshi, Ryosuke, additional, Tokuda, Kazuki, additional, Hanaoka, Misaki, additional, Tsuda, Yuya, additional, Kuriki, Mika, additional, Ohama, Akio, additional, Sano, Hidetoshi, additional, Hasegawa, Tetsuo, additional, Sofue, Yoshiaki, additional, Habe, Asao, additional, Onishi, Toshikazu, additional, and Fukui, Yasuo, additional

Published

2020

13. Development of new pixel structure for beyond 12-µm pixel pitch SOI diode uncooled IRFPAs

Author

Fujisawa, Daisuke, primary, Hanaoka, Misaki, additional, Kosasayama, Yasuhiro, additional, Yutani, Akie, additional, Shintani, Kenji, additional, Hata, Hisatoshi, additional, Ueno, Masashi, additional, Takenaga, Takashi, additional, and Yamamuka, Mikio, additional

Published

2020

14. Evaluation of temperature measurement using 80 × 32 silicon-on-insulator diode uncooled infrared focal plane array

Author

Andresen, Bjørn F., Fulop, Gabor F., Zheng, Lucy, Kimata, Masafumi, Miller, John Lester, Kim, Young-Ho, Hanaoka, Misaki, Kosasayama, Yasuhiro, Hata, Hisatoshi, Shintani, Kenji, Kamiya, Masashi, Fujisawa, Daisuke, Yamamuka, Mikio, and Miwa, Shotaro

Published

2022

15. A systematic study of Galactic infrared bubbles along the Galactic plane with AKARI and Herschel. II. Spatial distributions of dust components around the bubbles

Author

Hanaoka, Misaki, primary, Kaneda, Hidehiro, additional, Suzuki, Toyoaki, additional, Kokusho, Takuma, additional, Oyabu, Shinki, additional, Ishihara, Daisuke, additional, Kohno, Mikito, additional, Furuta, Takuya, additional, Tsuchikawa, Takuro, additional, and Saito, Futoshi, additional

Published

2019

16. CO observations toward the isolated mid-infrared bubble S44: External triggering of O-star formation by a cloud–cloud collision.

Author

Kohno, Mikito, Tachihara, Kengo, Fujita, Shinji, Hattori, Yusuke, Torii, Kazufumi, Nishimura, Atsushi, Hanaoka, Misaki, Yoshiike, Satoshi, Enokiya, Rei, Hasegawa, Keisuke, Ohama, Akio, Sano, Hidetoshi, Yamamoto, Hiroaki, and Fukui, Yasuo

Subjects

ASTRONOMICAL research, HIGH mass stars, RADIO telescopes, STAR formation

Abstract

We have performed a multi-wavelength study of the mid-infrared bubble S44 to investigate the origin of isolated high-mass star(s) and the star-formation process around the bubble formed by the H  ii region. We report on the results of new CO observations (12CO, 13CO J = 1–0, and 12CO J = 3–2) toward the isolated bubble S44 using the NANTEN2, Mopra, and ASTE radio telescopes. We found two velocity components at −84 km s−1 and −79 km s−1 in the direction of the bubble. These two clouds are likely to be physically associated with the bubble, because of the enhanced 12CO J = 3–2/1–0 intensity ratio from a ring-like structure affected by ultraviolet radiation from embedded high-mass star(s) and of the morphological correspondence between the 8 μm emission and the CO distribution. Assuming a single object, we estimate a spectral type of the embedded star inside the bubble to be O8.5–9 |$({\sim}20\,M_{\odot})$| from the radio-continuum free–free emission. We hypothesize that the two clouds collided with each other 3 Myr ago, triggering the formation of the isolated high-mass star in S44, as also occurred in RCW 120 and RCW 79. We argue that this scenario can explain the origin of the isolated O-star inside the bubble. [ABSTRACT FROM AUTHOR]

Published

2021

17. A systematic study of Galactic infrared bubbles along the Galactic plane with AKARI and Herschel

Author

Hanaoka, Misaki, primary, Kaneda, Hidehiro, additional, Suzuki, Toyoaki, additional, Kokusho, Takuma, additional, Oyabu, Shinki, additional, Ishihara, Daisuke, additional, Kohno, Mikito, additional, Furuta, Takuya, additional, Tsuchikawa, Takuro, additional, and Saito, Futoshi, additional

Published

2018

18. CO observations toward the isolated mid-infrared bubble S44: External triggering of O-star formation by a cloud–cloud collision

Author

Kohno, Mikito, primary, Tachihara, Kengo, additional, Fujita, Shinji, additional, Hattori, Yusuke, additional, Torii, Kazufumi, additional, Nishimura, Atsushi, additional, Hanaoka, Misaki, additional, Yoshiike, Satoshi, additional, Enokiya, Rei, additional, Hasegawa, Keisuke, additional, Ohama, Akio, additional, Sano, Hidetoshi, additional, Yamamoto, Hiroaki, additional, and Fukui, Yasuo, additional

Published

2018

19. Evaluation of the compensation ratio of heavily-Ga doped Ge for far-infrared detectors in astronomy

Author

Suzuki, Toyoaki, primary, Kaneda, Hidehiro, additional, Wada, Takehiko, additional, Ukai, Souta, additional, Hanaoka, Misaki, additional, Shichi, Kazuyuki, additional, Maeda, Hiroki, additional, Oyabu, Shinki, additional, and Watanabe, Kentaroh, additional

Published

2018

20. FOREST unbiased Galactic plane imaging survey with the Nobeyama 45 m telescope (FUGIN). VI. Dense gas and mini-starbursts in the W 43 giant molecular cloud complex

Author

Kohno, Mikito, Tachihara, Kengo, Torii, Kazufumi, Fujita, Shinji, Nishimura, Atsushi, Kuno, Nario, Umemoto, Tomofumi, Minamidani, Tetsuhiro, Matsuo, Mitsuhiro, Kiridoshi, Ryosuke, Tokuda, Kazuki, Hanaoka, Misaki, Tsuda, Yuya, Kuriki, Mika, Ohama, Akio, Sano, Hidetoshi, Hasegawa, Tetsuo, Sofue, Yoshiaki, Habe, Asao, Onishi, Toshikazu, and Fukui, Yasuo

Abstract

We performed new large-scale 12CO, 13CO, and C18O J= 1–0 observations of the W 43 giant molecular cloud complex in the tangential direction of the Scutum arm (l∼30°) as a part of the FUGIN project. The low-density gas traced by 12CO is distributed over 150 pc × 100 pc (l× b), and has a large velocity dispersion (20–30 km s−1). However, the dense gas traced by C18O is localized in the W 43 Main, G30.5, and W 43 South (G29.96−0.02) high-mass star-forming regions in the W 43 giant molecular cloud (GMC) complex, which have clumpy structures. We found at least two clouds with a velocity difference of ∼10–20 km s−1, both of which are likely to be physically associated with these high-mass star-forming regions based on the results of high 13CO J= 3–2 to J= 1–0 intensity ratio and morphological correspondence with the infrared dust emission. The velocity separation of these clouds in W 43 Main, G30.5, and W 43 South is too large for each cloud to be gravitationally bound. We also revealed that the dense gas in the W 43 GMC has a high local column density, while “the current SFE” (star formation efficiency) of the entire GMC is low ($\sim\!\! 4\%$) compared with the W 51 and M 17 GMC. We argue that the supersonic cloud–cloud collision hypothesis can explain the origin of the local mini-starbursts and dense gas formation in the W 43 GMC complex.

Published

2021

21. EVALUATION OF FAR-INFRARED BIB-TYPE GE DETECTORS FABRICATED WITH THE SURFACE-ACTIVATED WAFER BONDING TECHNOLOGY

Author

Hanaoka, Misaki, primary, Kaneda, Hidehiro, additional, Oyabu, Shinki, additional, Hattori, Yasuki, additional, Tanaka, Kotomi, additional, Ukai, Sota, additional, Shichi, Kazuyuki, additional, Wada, Takehiko, additional, Suzuki, Toyoaki, additional, Watanabe, Kentaroh, additional, Nagase, Koichi, additional, Baba, Shunsuke, additional, and Kochi, Chihiro, additional

Published

2017

22. DEVELOPMENT OF NEW STITCHING INTERFEROMETRY FOR THE SPICA TELESCOPE

Author

Yamanaka, Asa, primary, Kaneda, Hidehiro, additional, Yamagishi, Mitsuyoshi, additional, Kondo, Toru, additional, kokusho, Takuma, additional, Tanaka, Kotomi, additional, Hanaoka, Misaki, additional, Nakagawa, Takao, additional, Kawada, Mitsunobu, additional, Isobe, Naoki, additional, Arai, Toshiaki, additional, and Onaka, Takashi, additional

Published

2017

23. Development of stitching interferometry for the SPICA telescope

Author

Yamanaka, Asa, Kaneda, Hidehiro, Yamagishi, Mitsuyoshi, Kondo, Toru, Kokusho, Takuma, Tanaka, Kotomi, Hanaoka, Misaki, Nakagawa, Takao, Kawada, Mitsunobu, Isobe, Naoki, Arai, Toshiaki, and Onaka, Takashi

Abstract

第15回宇宙科学シンポジウム (2015年1月6日-7日. 宇宙航空研究開発機構宇宙科学研究所(JAXA)(ISAS)相模原キャンパス), 相模原市, 神奈川県, 15th Space Science Symposium (January 6-7, 2015. Institute of Space and Astronautical Science, Japan Aerospace Exploration Agency(JAXA)(ISAS)Sagamihara Campus), Sagamihara, Kanagawa Japan, 著者人数: 12名, 資料番号: SA6000034099, レポート番号: P-099

Published

2015

24. Mid- and far-infrared properties of Spitzer Galactic bubbles revealed by the AKARI all-sky surveys

Author

Hattori, Yasuki, primary, Kaneda, Hidehiro, additional, Ishihara, Daisuke, additional, Fukui, Yasuo, additional, Torii, Kazufumi, additional, Hanaoka, Misaki, additional, Kokusho, Takuma, additional, Kondo, Akino, additional, Shichi, Kazuyuki, additional, Ukai, Sota, additional, Yamagishi, Mitsuyoshi, additional, and Yamaguchi, Yuta, additional

Published

2016

25. Evaluation of temperature measurement using 80 × 32 silicon-on-insulator diode uncooled infrared focal plane array.

Author

Hanaoka, Misaki, Kosasayama, Yasuhiro, Hata, Hisatoshi, Shintani, Kenji, Kamiya, Masashi, Fujisawa, Daisuke, Yamamuka, Mikio, and Miwa, Shotaro

Published

2022

26. A systematic study of Galactic infrared bubbles along the Galactic plane with AKARI and Herschel. II. Spatial distributions of dust components around the bubbles.

Author

Hanaoka, Misaki, Kaneda, Hidehiro, Suzuki, Toyoaki, Kokusho, Takuma, Oyabu, Shinki, Ishihara, Daisuke, Kohno, Mikito, Furuta, Takuya, Tsuchikawa, Takuro, and Saito, Futoshi

Subjects

*DUST, *POLYCYCLIC aromatic hydrocarbons, *ASTRONOMICAL research, *SPECTRAL energy distribution, *SUPERGIANT stars

Abstract

Galactic infrared (IR) bubbles, which can be seen as shell-like structures at mid-IR wavelengths, are known to possess massive stars within their shell boundaries. In our previous study (Hanaoka, 2019 , PASJ, 71, 6), we expanded the research area to the whole Galactic plane (⁠|$0^{\circ } \le l \le 360^{\circ }$|⁠ , |$|b| \le 5^{\circ }$|⁠) and studied systematic differences in the shell morphology and the IR luminosity of the IR bubbles between inner and outer Galactic regions. In this study, utilizing high spatial-resolution data of AKARI and WISE in the mid-IR and Herschel in the far-IR, we investigate the spatial distributions of dust components around each IR bubble to discuss the relation between the star-formation activity and the dust properties of the IR bubbles. For the 247 IR bubbles studied in Hanaoka (2019 , PASJ, 71, 6), 165 IR bubbles are investigated in this study, which have the Herschel data (⁠|$|b|\le 1^{\circ }$|⁠) and known distances. We created their spectral energy distributions on a pixel-by-pixel basis around each IR bubble, and decomposed them with a dust model consisting of polycyclic aromatic hydrocarbons (PAHs), hot dust, warm dust and cold dust. As a result, we find that the offsets of dust heating sources from the shell centers in inner Galactic regions are systematically larger than those in outer Galactic regions. Many of the broken bubbles in inner Galactic regions show large angles between the offset and the direction of the broken shell from the center. Moreover, the spatial variations of the PAH intensity and cold dust emissivity around the IR bubbles in inner Galactic regions are larger than those in outer Galactic regions. We discuss these results in light of the interstellar environments and the formation mechanism of the massive stars associated with the IR bubbles. [ABSTRACT FROM AUTHOR]

Published

2020

27. systematic study of Galactic infrared bubbles along the Galactic plane with AKARI and Herschel.

Author

Hanaoka, Misaki, Kaneda, Hidehiro, Suzuki, Toyoaki, Kokusho, Takuma, Oyabu, Shinki, Ishihara, Daisuke, Kohno, Mikito, Furuta, Takuya, Tsuchikawa, Takuro, and Saito, Futoshi

Subjects

*WAVELENGTHS, *STAR formation, *SUPERGIANT stars, *STELLAR evolution, *INFRARED spectra

Abstract

Galactic infrared (IR) bubbles, which have shell-like structures in the mid-IR wavelengths, are known to contain massive stars near their centers. Infrared bubbles in inner Galactic regions (| l | ≤ 65°, | b | ≤ 1°) have so far been studied well to understand the massive star formation mechanisms. In this study, we expand the research area to the whole Galactic plane (0° ≤ l < 360°, | b | ≤ 5°), using the AKARI all-sky survey data. We limit our study to large bubbles with angular radii of >1′ to reliably identify and characterize them. For the 247 IR bubbles in total, we derived the radii and the covering fractions of the shells, based on the method developed by Y. Hattori et al. (2016, PASJ, 68, 37). We also created their spectral energy distributions, using the AKARI and Herschel photometric data, and decomposed them with a dust model to obtain the total IR luminosity and the luminosity of each dust component, i.e. polycyclic aromatic hydrocarbons (PAHs), warm dust, and cold dust. As a result, we find that there are systematic differences in the IR properties of the bubbles between the inner and outer Galactic regions. The total IR luminosities are lower in outer Galactic regions, while there is no systematic difference in the range of the shell radii between inner and outer Galactic regions. More IR bubbles tend to be observed as broken bubbles rather than closed ones and the fractional luminosities of the PAH emission are significantly higher in outer Galactic regions. We discuss the implications of these results for the massive stars and the interstellar environments associated with the Galactic IR bubbles. [ABSTRACT FROM AUTHOR]

Published

2019