قالب وردپرس درنا توس
Home https://server7.kproxy.com/servlet/redirect.srv/sruj/smyrwpoii/p2/ Science https://server7.kproxy.com/servlet/redirect.srv/sruj/smyrwpoii/p2/ The seventh inner moon of Neptune

The seventh inner moon of Neptune



  • 1.

    Smith, B. A. et al. Voyager 2 and Neptune: imaging science results. Science 246 1422-1449 (1989).

  • 2.

    Colwell, J. E. & Esposito, L. W. Origins of the rings of Uranus and Neptune 1

    . Statistics of satellite disruptions. J. Geophys. Res . 97 10,227-10,241 (1992).

  • 3.

    Banfield, D. & Murray, N. A dynamical history of the inner Neptunian satellites. Icarus 99 390-401 (1992).

  • 4.

    Showalter, MR, de Pater, I., Lissauer, JJ & French, RS New satellite of Neptune: / 2004 N 1. CBET 3586 (2013).

  • 5.

    Jacobson, RA The orbits of the Neptunian satellites and the orientation of the pole of Neptune. Astron. J . 137 4322-4329 (2009).

  • 6.

    Jacobson, R. A. & Owen, W. M. The orbits of the inner Neptunian satellites from Voyager, Earth-based, and Hubble Space Telescope observations. Astron. J . 128 1412-1417 (2004).

  • 7.

    Owen, W. M., Vaughan, R. M. & Synnott, S. P. Orbits of six new satellites of Neptune. Astron. J . 101 1511-1515 (1991).

  • 8.

    Marchis, F. et al. Neptunian satellites observed with Keck AO system. Bull. General. Astron. Soc . 36 860 (2004).

  • 9.

    Brozovic, M., Showalter, MR, Jacobson, RA, French, RS, de Pater, I. & Lissauer, J. Orbits of the inner satellites of Neptune. In AAS / Division of Dynamical Astronomy Meeting Vol. 49, 402.01 (American Astronomical Society, 2018).

  • 10.

    Thomas, P. & Veverka, J. Neptune's small, inner satellites. J. Geophys. Res . 96 19,261-19,268 (1991).

  • 11.

    Karkoschka, E. Sizes, shapes, and albedos of the inner satellites of Neptune. Icarus 162 400-407 (2003).

  • 12.

    Showalter, M. R. & Hamilton, D. P. Resonant interactions and chaotic rotation of Pluto's small moons. Nature 522 45-49 (2015).

  • 13.

    Croft, S. K. Proteus: geology, shape, and catastrophic disruption. Icarus 99 402-419 (1992).

  • 14.

    Greenzweig, Y. & Lissauer, J. J. Accretion rates of protoplanets. Icarus 87 40-77 (1990).

  • 15.

    Zhang, K. & Hamilton, D. P. Orbital resonances in the inner Neptunian system II. Resonant history of Proteus, Larissa, Galatea, and Despina. Icarus 193 267-282 (2008).

  • 16.

    Tittemore, W. C. & Wisdom, J. Tidal evolution of the Uranian satellites.

  • 17.

    Krist, J. & Hook, R. The Tiny Tim User's Guide, v.6.3 (STScI, Baltimore, 2004); http://tinytim.stsci.edu/static/tinytim.pdf.

  • 18.

    Renner, S. & Sicardy, B. Use of the geometric elements in numerical simulations. Celestial Mech. Dyn. Astron . 94 237-248 (2006).

  • 19.

    Shupe, D. L. & Hook, R. N. The SIP convention for representing distortion in FITS image headers. ASP Conf. Ser . 347 491-495 (2005).

  • 20.

    Showalter, M. R. & Lissauer, J. J. The second ring-moon system of Uranus: Discovery and dynamics. Science 311 973-977 (2006).

  • 21.

    Dressel, L. Wide Field Camera 3 Instrument Handbook, v.10.0 (STScI, Baltimore, 2018); http://www.stsci.edu/hst/wfc3/documents/handbooks/currentIHB/wfc3_cover.html.

  • 22.

    Bohlin, R. C. Perfecting the photometric calibration of the ACS CCD cameras. Astron. J . 152 60 (2016).

  • 23.

    Beers, T. C., Flynn, K. & Gebhardt, K. Measures of location and scale for velocities in clusters of galaxies-a robust approach. Astron. J . 100 32-49 (1990).


  • Source link