2019 Self-semi

Takami [PDF]
Horinouchi et al. (2018)
Mean winds at the cloud top of Venus obtained from two-wavelength UV imaging by Akatsuki
Earth, Planets and Space (2018) 70:10

Toriumi [PDF]
Wordsworth et al. (2017)
Transient reducing greenhouse warming on early Mars
Geophysical Research Letters, 44, 665–671

Yagi [PDF]
Tu et al. (2015)
The extreme ultraviolet and X-ray Sun in Time: High-energy evolutionary tracks of a solar-like star
A&A 577, L3 (2015)

Tanabe [PDF]
Ballouz et al.(2018)
The Sands of Phobos: The Martian moon’s eccentric orbit refreshes its surface
Earth and Planetary Astrophysics (7 Sep 2018)

Yoshida [PDF]
Withers et al. (2015)
Changes in the thermosphere and ionosphere of Mars from Viking to MAVEN
Geophysical Research Letters, 42, 9071-9079

Suzuki [PDF]
M. C. Pitts et al. (2018)
Polar stratospheric cloud climatology based on CALIPSO spaceborne lidar measurements from 2006 to 2017
Atmos. Chem. Phys., 18, 10881-10913, 2018

Miyamoto [PDF]
Shaposhnikov et al.(2019)
Seasonal Water “Pump” in the Atmosphere of Mars: Vertical Transport to the Thermosphere
Geophysical Research Letters, 43, 3095–3104
Nakamura [PDF]
S. Cardnell et al. (2016)
A photochemicalmodel of the dust-loaded ionosphere of Mars
Journal of Geophysical Research: Planets, 121, 2335-2348

Katada [PDF]
Fulton et al. (2017)
The California-Kepler Survey. III. A Gap in the Radius Distribution of Small Planets
The Astronomical Journal, Volume 154, Number 3

Tsukada [PDF]
Vladimir A. Krasnopolsky (2009)
Seasonal variations of photochemical tracers at low and middle latitudes on Mars: Observations and models
Icarus Volume 201, Issue 2, June 2009, Pages 564-569

Koyama [PDF]
Atreya et al. (2006)
Oxidant Enhancement in Martian Dust Devils and Storms: Implications for Life and Habitability
Astrobiology, Volume 6, Issue 3, pp. 439-450.
Takami [PDF]
Limaye et al. (2017)
The thermal structure of the Venus atmosphere: Intercomparison of Venus Express and ground based observations of vertical temperature and density profiles
Icarus, Volume 294, 15 September 2017, Pages 124-155

Toriumi [PDF]
Kathryn et al. (2019)
Testing the impact heating hypothesis for early Mars with a 3-D global climate model
Icarus, Volume 330, 15 September 2019, Pages 169-188

Yagi [PDF]
Ogawa et al. (2012)
Two-dimensional numerical studies on the effects of water on Martian mantle evolution induced by magmatism and solid-state mantle convection
Journal of Geophysical Research: Planets, 117, E06004

Tanabe [PDF]
K. Willner et al. (2014)
Phobos' shape and topography models
Planetary and Space Science 102 (2014) 51–59
Yoshida [PDF]
Withers et al. (2019)
Mar’s Dayside Upper Ionospheric composition is affected by Magnetic Field Conditions
Journal of Geophysical Research: Space Physics, 124, 3100–3109

Simmonds et al. (2017)
Changing trends and emissions of hydrochlorofluorocarbons (HCFCs) and their hydrofluorocarbon (HFCs) replacements
Atmos. Chem. Phys., 17, 4641–4655, 2017

Koyama [PDF]
Harman et al. (2018)
Abiotic O2 Levels on Planets around F, G, K, and M Stars: Effects of Lightning-produced Catalysts in Eliminating Oxygen False Positives
The Astrophysical Journal,866:56

Miyamoto [PDF]
Nakamura [PDF]
Hu et al. (2015)
Tracing the fate of carbon and the atmospheric evolution of Mars
Nature Communications, 6:10003 (2015)

Katada [PDF]
Ozima et al. (2005)
Terrestrial nitrogen and noble gases in lunar soils
Nature, 436, 655–659 (2005)

Takahashi [PDF]
Fogg (2000)
The ethical dimensions of space settlement
Space Policy 16 (2000) 205-211

Tsukada [PDF]
K.E. Fast et al. (2009)
Comparison of HIPWAC and Mars Express SPICAM observations of ozone on Mars 2006–2008 and variation from 1993 IRHS observations
Icarus 203 (2009) 20–27
Toriumi [PDF]
Schaefer and Fegley (2010)
Chemistry of atmospheres formed during accretion of the earth and other terrestrial planets
Icarus 208 (2010) 438–448

Tanabe [PDF]
Nishino et al. (2009)
Solar‐wind proton access deep into the near‐Moon wake
Geophysical Research Letters, 36, L16103
Takami [PDF]
Bertaux et al. (2007)
A warm layer in Venus' cryosphere and high-altitude measurements of HF, HCl, H2O and HDO
Nature volume 450, pages 646–649 (29 November 2007)

Yagi [PDF]
千秋 博紀 著
火の鳥「はやぶさ」未来編 その9 ~TIRで観る小惑星表面のちょっと下~
2015 年 24 巻 2 号 p. 120-125

Yoshida [PDF]
Thiemann et al. (2018)
Mars Thermospehric Variability Revealed by MAVEN EUVM Solar Occultations: Structure at Aphelion and Perihelion and Response to EUV Forcing
Journal of Geophysical Research: Planets, 123, 2248-2269

M. Rigby et al. (2019)
Increase in CFC-11 emissions from eastern China based on atmospheric observations
Nature 569, 546–550 (2019)

Koyama [PDF]
Sholes et al. (2018)
A Maximum Subsurface Biomass on Mars from Untapped Free Energy: CO and H2 as Potential Antibiosignatures
Astrobiology Volume: 19 Issue 5: May 2, 2019

Miyamoto [PDF]
Ruan et al. (2019)
Investigating the semiannual oscillation on Mars using data assimilation
Icarus 333 (2019) 404-414

Nakamura [PDF]
Nichols, J. D., et al. (2017)
Response of Jupiter’s auroras to conditions in the interplanetary medium as measured by the Hubble Space Telescope and Juno
Geophysical Research Letters, 44, 7643–7652


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  23. Sakanoi, T., J. Kuhn, S. Berdyugina, M. Emilio, M. Kagitani, Y. Hirahara, H. Nakagawa, Y. Kasaba, T. Obara, S. Okano, I. Scholl, A. Berdyugin, and V. Piirola (2018), Development of PLANETS telescope and visible-infrared spectrometer for monitoring of planetary and exoplanetary atmospheres, Proc. SPIE 10700, Ground-based and Airborne Telescopes VII, 107004J, doi: 10.1117/12.2312363.
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  25. Tao, C., T. Kimura, F. Tsuchiya, G. Murakami, K. Yoshioka, A. Yamazaki, S. V. Badman, H. Misawa, H. Kita, Y. Kasaba, I. Yoshikawa, and M. Fujimoto (2018), Variation of Jupiter’s aurora observed by Hisaki/EXCEED: 3. Volcanic control of Jupiter’s aurora, Geophys. Res. Lett. 45, 71-79, doi:10.1002/2017GL075814.
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  27. Vandaele, A.C.; Lopez-Moreno, J.-J.; Patel, M. R.; Bellucci, G.; Daerden, F.; Ristic, B.; Robert, S.; Thomas, I. R.; Wilquet, V.; Allen, M.; Alonso-Rodrigo, G.; Altieri, F.; Aoki, S.; Bolsée, D.; Clancy, T.; Cloutis, E.; Depiesse, C.; Drummond, R.; Fedorova, A.; Formisano, V.; Funke, B.; González-Galindo, F.; Geminale, A.; Gérard, J.-C.; Giuranna, M.; Hetey, L.; Ignatiev, N.; Kaminski, J.; Karatekin, O.; Kasaba, Y.; Leese, M.; Lefèvre, F.; Lewis, S. R.; López-Puertas, M.; López-Valverde, M.; Mahieux, A.; Mason, J.; McConnell, J.; Mumma, M.; Neary, L.; Neefs, E.; Renotte, E.; Rodriguez-Gomez, J.; Sindoni, G.; Smith, M.; Stiepen, A.; Trokhimovsky, A.; Vander Auwera, J.; Villanueva, G.; Viscardy, S.; Whiteway, J.; Willame, Y.; Wolff, M. (2018) NOMAD, an integrated suite of three spectrometers for the ExoMars Trace Gas Mission: Technical description, science objectives and expected performance, Space Sci. Rev, 214:80, doi:10.1007/s11214-018-0517-2.
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2019 セミナー資料

2019/4/19 Nakamura(R) [PDF] Takami(R) [PDF]

2019/4/26 Yoshida(R) [PDF] Toriumi(R) [PDF]

2019/5/10 Yagi(R) [PDF] Murata(S) [PDF]

2019/5/17 Suzuki(S) [PDF] Kuroda(R) [PDF]

2019/5/24 Katada(R) [PDF] Takahashi(R) [PDF] Tsukada(R) [PDF]

2019/6/21 Toriumi(S) [PDF] Nakamura(S) [PDF]

2019/6/28 Yoshida(S) [PDF] Yagi(S) [PDF]

2019/7/5 Takami(S) [PDF] Tanabe(S) [PDF]

2019/7/12 Miyamoto(S) [PDF] Nakagawa(R) [PDF]

2019/7/19 Koyama(S) [PDF] K.Terada(S) [PDF]

2019/10/11 Katada(R) [PDF] Takahashi(R) [PDF] Tsukada(R) [PDF]

2019/10/18 Miyamoto(R) [PDF] Murata(S) [PDF]

2019/11/1 Tanabe(R) [PDF] Kuroda(S) [PDF]

2019/11/15 Koyama(R) [PDF] K.Terada(R) [PDF]

2019/11/22 Suzuki(R) [PDF] Nakagawa(S) [PDF]

2019/11/29 Yoshida(S) [PDF] N.Terada(S) [PDF]

2019/12/6 Toriumi(S) [PDF] Takami(S) [PDF]

2019/12/20 Yagi(S) [PDF] Nakamura(S) [PDF]

2019/1/10 Katada(S) [PDF] Takahashi(S) [PDF] Tsukada(S) [PDF]

2019/1/16 Koyama(S) [PDF] Tanabe(S) [PDF]

2019/1/23 Miyamoto(S) [PDF] Suzuki(S) [PDF]

文部科学大臣表彰 若手科学者賞 受賞

惑星大気・OGである垰 千尋さん(NICT)が、

受賞者氏名: 垰 千尋
所属: 情報通信研究機構 テニュアトラック研究員
業績名: 外惑星オーロラの発電-発光-変動過程の研究
推薦機関名: 地球電磁気・地球惑星圏学会




S303 大掃除




惑星大気物理学分野の中村勇貴さん(M1)、惑星プラズマ大気研究センターの渡辺 はるなさん(M2)、吹澤 瑞貴さん(M2)が、地球電磁気・地球惑星圏学会第144回講演会(2018年11月23日〜27日)において学生発表賞を受賞、惑星大気物理学分野の吉田奈央さん(M1)が優秀発表者に選ばれました。受賞者および優秀発表者の講評等は下記のHPで公開しています。



受賞者: 中村勇貴(惑星大気物理学分野、博士前期課程1年)

賞名: 地球電磁気・地球惑星圏学会第144回講演会 学生発表賞(オーロラメダル)
発表題名: Axisymmetric conductivities of Jupiter’s middle- and low-latitude ionosphere
受賞日: 2018年12月13日

受賞者: 渡辺 はるな(惑星プラズマ大気研究センター、博士前期課程2年)

賞名: 地球電磁気・地球惑星圏学会第144回講演会 学生発表賞(オーロラメダル)
発表題名: すばる望遠鏡で観測された木星赤外オーロラの微細構造とその時間変動
受賞日: 2018年12月13日

受賞者: 吹澤 瑞貴(惑星プラズマ大気研究センター、博士前期課程2年)

賞名: 地球電磁気・地球惑星圏学会第144回講演会 学生発表賞(オーロラメダル)
発表題名: Electrostatic electron cyclotron harmonic waves as a candidate to cause pulsating auroras
受賞日: 2018年12月13日

受賞者: 吉田 奈央(惑星大気物理学分野、博士前期課程1年)

賞名: 地球電磁気・地球惑星圏学会第144回講演会 優秀発表者
発表題名:Seasonal variation of the homopause altitudes on Mars derived from MAVEN/IUVS observations
受賞日: 2018年12月13日




今回の観測結果は、あかつきScience Woking Team Meeting #10と国際金星会議[https://www.cps-jp.org/~akatsuki/venus2018/]にて発表予定です。