Planet ¤Î¥Ð¥Ã¥¯¥¢¥Ã¥×(No.12)

• ¥Ð¥Ã¥¯¥¢¥Ã¥×°ìÍ÷
• º¹Ê¬ ¤òɽ¼¨
• ¸½ºß¤È¤Îº¹Ê¬ ¤òɽ¼¨
• ¥½¡¼¥¹ ¤òɽ¼¨
• Planet ¤Ø¹Ô¤¯¡£
  • 1 (2017-04-04 (²Ð) 16:22:35)
  • 2 (2017-04-11 (²Ð) 17:54:25)
  • 3 (2017-04-25 (²Ð) 15:39:16)
  • 4 (2017-05-09 (²Ð) 17:16:57)
  • 5 (2017-05-18 (ÌÚ) 09:16:37)
  • 6 (2017-06-13 (²Ð) 17:11:49)
  • 7 (2017-06-14 (¿å) 09:32:12)
  • 8 (2017-07-07 (¶â) 10:04:12)
  • 9 (2017-07-18 (²Ð) 14:37:03)
  • 10 (2017-07-27 (ÌÚ) 15:30:26)
  • 11 (2017-08-02 (¿å) 08:39:21)
  • 12 (2017-09-07 (ÌÚ) 12:03:12)
  • 13 (2017-09-20 (¿å) 10:33:12)
  • 14 (2017-09-21 (ÌÚ) 11:57:16)
  • 15 (2017-10-31 (²Ð) 10:22:22)
  • 16 (2018-05-11 (¶â) 13:31:08)
  • 17 (2018-05-15 (²Ð) 18:10:19)
  • 18 (2018-05-16 (¿å) 15:02:02)
  • 19 (2018-05-17 (ÌÚ) 16:36:21)
  • 20 (2018-05-18 (¶â) 12:15:26)
  • 21 (2018-05-22 (²Ð) 16:27:17)
  • 22 (2018-05-23 (¿å) 09:45:23)
  • 23 (2018-05-23 (¿å) 15:39:40)
  • 24 (2018-05-24 (ÌÚ) 15:06:01)
  • 25 (2018-05-24 (ÌÚ) 18:36:01)
  • 26 (2018-06-13 (¿å) 14:24:35)
  • 27 (2018-06-19 (²Ð) 15:41:45)
  • 28 (2018-06-26 (²Ð) 18:25:30)
  • 29 (2018-06-28 (ÌÚ) 17:02:28)
  • 30 (2018-07-11 (¿å) 19:12:59)
  • 31 (2018-07-12 (ÌÚ) 16:08:47)
  • 32 (2018-07-18 (¿å) 10:19:33)
  • 33 (2018-07-19 (ÌÚ) 11:42:44)
  • 34 (2018-09-07 (¶â) 14:27:12)
  • 35 (2018-10-02 (²Ð) 17:09:22)
  • 36 (2018-10-11 (ÌÚ) 12:52:26)
  • 37 (2018-10-15 (·î) 12:23:45)
  • 38 (2018-10-18 (ÌÚ) 15:29:38)
  • 39 (2018-10-27 (ÅÚ) 09:49:53)
  • 40 (2018-10-29 (·î) 15:29:28)
  • 41 (2018-10-30 (²Ð) 10:02:48)
  • 42 (2018-11-01 (ÌÚ) 15:32:54)
  • 43 (2018-11-02 (¶â) 15:54:47)
  • 44 (2018-11-05 (·î) 11:00:35)
  • 45 (2018-11-08 (ÌÚ) 10:09:06)
  • 46 (2018-11-21 (¿å) 10:07:36)
  • 47 (2018-11-26 (·î) 15:05:24)
  • 48 (2018-12-11 (²Ð) 12:35:34)
  • 49 (2019-01-08 (²Ð) 10:42:20)
  • 50 (2019-01-22 (²Ð) 16:32:31)
  • 51 (2019-01-23 (¿å) 10:37:48)
  • 52 (2019-02-07 (ÌÚ) 15:00:23)
  • 53 (2019-03-04 (·î) 16:06:04)
  • 54 (2019-03-06 (¿å) 16:02:11)
  • 55 (2019-03-18 (·î) 13:36:53)
  • 56 (2019-04-05 (¶â) 17:29:32)
  • 57 (2019-04-08 (·î) 14:13:18)
  • 58 (2019-04-11 (ÌÚ) 17:08:03)
  • 59 (2019-04-15 (·î) 14:10:14)
  • 60 (2019-04-16 (²Ð) 07:42:04)
  • 61 (2019-04-18 (ÌÚ) 13:41:15)
  • 62 (2019-04-22 (·î) 09:45:27)
  • 63 (2019-04-22 (·î) 18:31:00)
  • 64 (2019-04-23 (²Ð) 16:04:27)
  • 65 (2019-04-24 (¿å) 15:59:22)
  • 66 (2019-05-06 (·î) 15:55:55)
  • 67 (2019-05-07 (²Ð) 17:29:15)
  • 68 (2019-05-15 (¿å) 09:40:23)
  • 69 (2019-05-28 (²Ð) 18:16:39)
  • 70 (2019-05-29 (¿å) 07:40:33)
  • 71 (2019-06-03 (·î) 15:39:11)
  • 72 (2019-06-04 (²Ð) 18:44:30)
  • 73 (2019-06-05 (¿å) 18:12:02)
  • 74 (2019-06-09 (Æü) 01:12:05)
  • 75 (2019-06-14 (¶â) 08:07:42)
  • 76 (2019-06-19 (¿å) 16:28:35)
  • 77 (2019-06-24 (·î) 17:29:45)
  • 78 (2019-06-27 (ÌÚ) 14:11:16)
  • 79 (2019-07-11 (ÌÚ) 20:15:27)
  • 80 (2019-07-12 (¶â) 13:57:23)
  • 81 (2019-10-02 (¿å) 18:10:34)
  • 82 (2019-10-03 (ÌÚ) 15:36:12)
  • 83 (2019-10-10 (ÌÚ) 11:24:09)
  • 84 (2019-11-01 (¶â) 11:38:21)
  • 85 (2019-11-04 (·î) 11:10:11)
  • 86 (2019-12-18 (¿å) 13:38:58)
  • 87 (2019-12-23 (·î) 17:49:40)
  • 88 (2019-12-30 (·î) 15:31:57)
  • 89 (2020-01-07 (²Ð) 16:10:11)
  • 90 (2020-01-08 (¿å) 04:08:01)
  • 91 (2020-01-08 (¿å) 11:53:12)
  • 92 (2020-01-16 (ÌÚ) 15:18:17)
  • 93 (2020-01-20 (·î) 12:49:01)
  • 94 (2020-01-22 (¿å) 18:53:35)
  • 95 (2020-01-27 (·î) 15:12:45)
  • 96 (2020-03-03 (²Ð) 21:50:30)
  • 97 (2020-04-02 (ÌÚ) 16:39:00)
  • 98 (2020-04-08 (¿å) 18:38:23)
  • 99 (2020-04-09 (ÌÚ) 11:24:13)
  • 100 (2020-04-16 (ÌÚ) 16:10:46)
  • 101 (2020-04-20 (·î) 11:53:51)
  • 102 (2020-04-28 (²Ð) 20:28:33)
  • 103 (2020-04-29 (¿å) 15:52:19)
  • 104 (2020-05-07 (ÌÚ) 12:29:44)
  • 105 (2020-05-08 (¶â) 14:15:50)
  • 106 (2020-05-08 (¶â) 22:43:49)
  • 107 (2020-05-14 (ÌÚ) 22:30:07)
  • 108 (2020-06-26 (¶â) 17:31:55)
  • 109 (2020-07-03 (¶â) 15:00:34)
  • 110 (2020-07-19 (Æü) 12:04:08)
  • 111 (2020-10-05 (·î) 18:52:22)
  • 112 (2020-10-05 (·î) 22:30:37)
  • 113 (2020-10-08 (ÌÚ) 16:31:06)
  • 114 (2020-10-15 (ÌÚ) 10:15:06)
  • 115 (2020-11-06 (¶â) 10:10:50)
  • 116 (2020-11-20 (¶â) 22:58:33)
  • 117 (2020-11-30 (·î) 17:26:33)
  • 118 (2020-12-16 (¿å) 21:44:01)
  • 119 (2020-12-21 (·î) 23:22:46)
  • 120 (2021-01-08 (¶â) 13:15:27)

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ÏÇÀ±¥»¥ß¥Ê¡¼2017 †

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Schedule & History †

2016ǯÅÙ 2015ǯÅÙ 2014ǯÅÙ

astro-ph ¥ê¥ó¥¯ †

4/4

ÅÄÃæͤ´õ (3/20-24)

• Reassessment of the Null Result of the HST Search for Planets in 47 Tucanae
• Assessing the Habitability of the TRAPPIST-1 System Using a 3D Climate Model
• The GTC exoplanet transit spectroscopy survey. VII. Detection of sodium in WASP-52b's cloudy atmosphere
• Formation of TRAPPIST-1 and other compact systems
• Testing the existence of optical linear polarization in young brown dwarfs
• The effect of the stellar absorption line centre-to-limb variation on exoplanet transmission spectrum observations
• Planetesimal formation by the streaming instability in a photoevaporating disk

4/11

²¡ÌîæÆ°ì(3/27-31)

• The stability of tightly-packed, evenly-spaced systems of Earth-mass planets orbiting a Sun-like star
• Water transport to circumprimary habitable zones from icy planetesimal disks in binary star systems
• Size and density sorting of dust grains in SPH simulations of protoplanetary discs

¼ÆÅÄͺ(4/3-7)

• The cool and distant formation of Mars

4/25

¾®µ×ÊݱѰìϺ(4/10-14)

• Plausible Compositions of the Seven TRAPPIST-1 Planets Using Long-term Dynamical Simulations
• The curiously warped mean plane of the Kuiper belt
• Limits on the Stability of TRAPPIST-1
• A Minimum Mass Nebula for M Dwarfs
• The Destruction of an Oort Cloud in a rich stellar cluster

ÏÆÅÄÌÐ(4/17-21)

• Testing the chondrule-rich accretion model for planetary embryos using calcium isotopes

5/9

²®¸¶ÀµÇî(4/24-28)

• Planetary migration and the origin of the 2:1 and 3:2 (near)-resonant population of close-in exoplanets
• Acceleration of Cooling of Ice Giants by Condensation in Early Atmospheres
• Titan brighter at twilight than in daylight
• Avoiding resonance capture in multi-planet extrasolar systems

äÇÏ̤º»»Ò(5/1-5)

• 3D radiative transfer of intrinsically polarized dust emission based on aligned aspherical grains
• Survey of cold water lines in protoplanetary disks: indications of systematic volatile depletion
• A likely detection of a local interplanetary dust cloud passing near the Earth in the AKARI mid-infrared all-sky map

5/16

Âíůϯ(5/8-12)

• Composition of Early Planetary Atmospheres II: Coupled Dust and Chemical Evolution in Protoplanetary Disks
• Chemical enrichment of giant planets and discs due to pebble drift
• Evidence for universality in the initial planetesimal mass function
• N-body simulations of planet formation via pebble accretion I: First Results

6/13

²¡¾å¾Í»Ò(5/15-19)

• Dynamics of Porous Dust Aggregates and Gravitational Instability of Their Disk
• Detection of the Yarkovsky effect for C-type asteroids in the Veritas family
• Shape models and physical properties of asteroids
• Driven by Excess? Climatic Implications of New Global Mapping of Near-Surface Water-Equivalent Hydrogen on Mars
• The compositional diversity of non-Vesta basaltic asteroids

²¡ÌîæÆ°ì(5/22-26)

• Formation of Close-in Super-Earths by Giant Impacts: Effects of Initial Eccentricities and Inclinations of Protoplanets
• In situ accretion of gaseous envelopes on to planetary cores embedded in evolving protoplanetary discs

¼ÆÅÄͺ(5/29-6/2)

• Internal Structure of Giant and Icy Planets: Importance of Heavy Elements and Mixing
• Capture of free-floating planets by stellar systems

¾®µ×ÊݱѰìϺ(6/5-9)

• Cladistical analysis of the Jovian and Saturnian satellite systems
• Dynamics and Collisional Evolution of Closely Packed Planetary Systems

7/4

ÏÆÅÄÌÐ(6/12-16)

• Radially resolved simulations of collapsing pebble clouds in protoplanetary discs

²®¸¶ÀµÇî(6/19-23)

• Stable habitable zones of single Jovian planet systems
• Exoplanets as probes of the winds of host stars: the case of the M dwarf GJ 436
• Eccentricity excitation and merging of planetary embryos heated by pebble accretion
• The California-Kepler Survey V. Peas in a Pod: Planets in a Kepler Multi-planet System are Similar in Size and Regularly Spaced
• A giant planet undergoing extreme ultraviolet irradiation by its hot massive-star host
• Cloud formation in metal-rich atmospheres of hot super-Earths like 55 Cnc e and CoRot7b
• Gap and rings carved by vortices in protoplanetary dust

äÇÏ̤º»»Ò(6/26-30)

• Low-velocity collision behaviour of clusters composed of sub-mm sized dust aggregates
• Submillimetre-sized dust aggregate collision and growth properties
• NanoRocks: Design and Performance of an Experiment Studying Planet Formation on the International Space Station

7/18

Âíůϯ(7/3-7)

• Generation of inclined protoplanetary discs and misaligned planets through mass accretion I: Coplanar secondary discs
• Energy Options for Future Humans on Titan
• Global Simulations of the Inner Regions of Protoplanetary Disks with Comprehensive Disk Microphysics
• Centrifugally driven winds from protostellar accretion discs. I - Formulation and initial results
• Changes in orientation and shape of protoplanetary discs moving through an ambient medium

²¡¾å¾Í»Ò(7/10-14)

• Comparing Jupiter interior structure models to Juno gravity measurements and the role of a dilute core
• The highly active Anhur-Bes regions in the 67P/Churyumov - Gerasimenko comet: results from OSIRIS/ROSETTA observations
• The size distribution of Near Earth Objects larger than 10 meters

7/27

²¡ÌîæÆ°ì(7/17-21)

• On the Impact Origin of Phobos and Deimos I: Thermodynamic and Physical Aspects

9/5

¼ÆÅÄͺ(7/24-28)

• Seasonal Mass Transfer on the Nucleus of Comet 67P/Chuyumov-Gerasimenko

¾®µ×ÊݱѰìϺ(7/31-8/4)

• Reduced gas accretion on super-Earths and ice giants
• The Formation of Uranus and Neptune: Fine Tuning in Core Accretion
• Simulations of Small Solid Accretion onto Planetesimals in the Presence of Gas

ÏÆÅÄÌÐ(8/7-8/11)

• Ejection of Chondrules from Fluffy Matrices
• Early formation of planetary building blocks inferred from Pb isotopic ages of chondrules

²®¸¶ÀµÇî(8/14-8/18)

• What pebbles are made of: Interpretation of the V883 Ori disk