论文信息 - The recent expansion of Pluto's atmosphere - 字舞流文

The recent expansion of Pluto's atmosphere

Stellar occultations—the passing of a relatively nearby body in front of a background star—can be used to probe the atmosphere of the closer body with a spatial resolution of a few kilometres (ref. 1). Such observations can yield the scale height, temperature profile, and other information about the structure of the occulting atmosphere. Occultation data acquired for Pluto's atmosphere in 1988 revealed a nearly isothermal atmosphere above a radius of ∼1,215 km. Below this level, the data could be interpreted as indicating either an extinction layer or the onset of a large thermal gradient, calling into question the fundamental structure of this atmosphere. Another question is to what extent Pluto's atmosphere might be collapsing as it recedes from the Sun (passing perihelion in 1989 in its 248-year orbital period), owing to the extreme sensitivity of the equilibrium surface pressure to the surface temperature. Here we report observations at a variety of visible and infrared wavelengths of an occultation of a star by Pluto in August 2002. These data reveal evidence for extinction in Pluto's atmosphere and show that it has indeed changed, having expanded rather than collapsed, since 1988.

E. W. Dunham | M. W. Buie | A. S. Bosh | S. S. Eikenberry | D. J. Tholen | S. K. Leggett | K. B. Clancy | L. H. Wasserman | D. T. Hall | D. Moon | S. Eikenberry | D. Tholen | L. Roberts | J. Pasachoff | J. Thomas-Osip | L. Wasserman | E. Dunham | B. Babcock | D. Osip | S. Leggett | B. Penprase | D. Hall | R. Stone | C. Olkin | M. Buie | A. Bosh | J. Elliot | S. Levine | S. Qu | J. Rayner | C. Salyk | B. E. Penprase | C. B. Olkin | J. L. Elliot | S. D. Kern | S. Kern | B. Taylor | S. P. Souza | S. E. Levine | A. Ates | B. A. Babcock | D.-S. Moon | D. J. Osip | J. M. Pasachoff | M. J. Person | S. Qu | J. T. Rayner | L. C. Jr Roberts | C. V. Salyk | R. C. Stone | B. W. Taylor | J. E. Thomas-Osip | D. R. Ticehurst | M. Buie | M. Person | B. Babcock | D. Ticehurst | A. Ateş | J. L. Elliot | A. Ates | E. W. Dunham | D. T. Hall | S. K. Leggett | S. E. Levine | Dae-Sik Moon | J. T. Rayner | L. C. Roberts | S. P. Souza | R. C. Stone | B. W. Taylor | J. E. Thomas-Osip

[1] James L. Elliot,et al. PROBING PLANETARY ATMOSPHERES WITH STELLAR OCCULTATIONS , 1996 .

[2] J. Elliot,et al. Analysis of Stellar Occultation Data. II. Inversion, with Application to Pluto and Triton , 2003 .

[3] James L. Elliot,et al. Erratum: “Pluto-Charon Stellar Occultation Candidates: 2000-2009” [Astron. J. 119, 1999 (2000)] , 2000 .

[4] John T. Rayner,et al. SpeX: A Medium‐Resolution 0.8–5.5 Micron Spectrograph and Imager for the NASA Infrared Telescope Facility , 2003 .

[5] Total solar irradiance variations since 1978 , 2002 .

[6] William B. Hubbard,et al. Nonisothermal Pluto atmosphere models , 1990 .

[7] R. Botet,et al. Semi-empirical model of absorption and scattering by isotropic fractal aggregates of spheres , 1999 .

[8] Joel Sylvester,et al. Performance of an SBRC 256x256 array with ALICE/IRCAM3 , 1994, Astronomical Telescopes and Instrumentation.

[9] James L. Elliot,et al. Analysis of stellar occultation data for planetary atmospheres. I - Model fitting, with application to Pluto , 1992 .

[10] V. Eshleman,et al. Pluto's atmosphere - Models based on refraction, inversion, and vapor-pressure equilibrium , 1989 .

[11] H Germany,et al. A Method of Correcting Near‐Infrared Spectra for Telluric Absorption , 2002, astro-ph/0211255.

[12] Otto G. Franz,et al. The mass ratio of Charon to Pluto from Hubble Space Telescope astrometry with the fine guidance sensors , 2003 .

[13] David A. Paige,et al. Seasonal Nitrogen Cycles on Pluto , 1996 .

[14] R. Botet,et al. Titan's Geometric Albedo: Role of the Fractal Structure of the Aerosols , 1995 .

[15] H. Levato,et al. Large changes in Pluto's atmosphere as revealed by recent stellar occultations , 2003, Nature.

[16] R. D. Watson,et al. Occultation evidence for an atmosphere on Pluto , 1988, Nature.

[17] H. V. Hulst. Light Scattering by Small Particles , 1957 .

[18] J. Pasachoff,et al. Global warming on Triton , 1998, Nature.

[19] M. W. Williams,et al. Optical constants of organic tholins produced in a simulated Titanian atmosphere: From soft x-ray to microwave frequencies , 1984 .

[20] James L. Elliot,et al. Pluto's Radius and Atmosphere: Results from the Entire 9 June 1988 Occultation Data Set , 1993 .

[21] Jonathan I. Lunine,et al. Upper limits on possible photochemical hazes on Pluto , 1989 .

[22] David J. Tholen,et al. Pluto and Charon , 1997 .

[23] R. Hill,et al. The Prediction and Observation of the 1997 July 18 Stellar Occultation by Triton: More Evidence for Distortion and Increasing Pressure in Triton's Atmosphere , 2000 .

[24] James L. Elliot,et al. Pluto-Charon Stellar Occultation Candidates: 1996-1999 , 1996 .

[25] Peter J. Gierasch,et al. Analysis of stellar occultation data - Effects of photon noise and initial conditions. [planetary atmosphere temperature, pressure and density profiles from occultation light curve] , 1978 .

[26] W. T. Ziegler,et al. Vapor Pressure and Heats of Vaporization and Sublimation of Liquids and Solids of Interest in Cryogenics below 1-atm Pressure , 1980 .

[27] James L. Elliot,et al. Pluto's atmosphere , 1989 .

[28] C. Tropea,et al. Light Scattering from Small Particles , 2003 .

[29] James L. Elliot,et al. Pluto-Charon Stellar Occultation Candidates: 2000-2009 , 2000 .