Abstract
Observations of Neptune, made in 2018 using the new Narrow Field Adaptive Optics mode of the Multi Unit Spectroscopic Explorer (MUSE) instrument at the Very Large Telescope (VLT) from 0.48 to 0.93 μm, are analysed here to determine the latitudinal and vertical distribution of cloud opacity and methane abundance in Neptune's observable troposphere (0.1–∼ 3bar). Previous observations at these wavelengths in 2003 by HST/STIS (Karkoschka and Tomasko 2011, Icarus 205, 674–694) found that the mole fraction of methane above the cloud tops (at ∼ 2 bar) varied from ∼ 4% at equatorial latitudes to ∼ 2% at southern polar latitudes, by comparing the observed reflectivity at wavelengths near 825 nm controlled primarily by either methane absorption or H2–H2/H2–He collision-induced absorption. We find a similar variation in cloud-top methane abundance in 2018, which suggests that this depletion of methane towards Neptune's pole is potentially a long-lived feature, indicative of long-term upwelling at mid-equatorial latitudes and subsidence near the poles. By analysing these MUSE observations along the central meridian with a retrieval model, we demonstrate that a broad boundary between the nominal and depleted methane abundances occurs at between 20 and 40°S. We also find a small depletion of methane near the equator, perhaps indicating subsidence there, and a local enhancement near 60–70°S, which we suggest may be associated with South Polar Features (SPFs) seen in Neptune's atmosphere at these latitudes. Finally, by the use of both a reflectivity analysis and a principal component analysis, we demonstrate that this depletion of methane towards the pole is apparent at all locations on Neptune's disc, and not just along its central meridian.
Highlights
The visible and near-infrared spectra of both Uranus and Neptune are formed by the reflection of sunlight off its cloud layers, modulated mostly by the absorption of gaseous methane and Rayleigh scattering at blue wavelengths
We have made an initial estimation of the latitudinal variation of cloud-top methane abundance in Neptune's atmosphere, for the first time from ground-based observations, using the new Narrow Field Mode of the Multi Unit Spectroscopic Explorer (MUSE) instrument at Very Large Telescope (VLT)
This distribution with latitude would appear to be a long-lived feature and our retrieved abundances appear to be consistent with this earlier determination, with a retrieved mole fraction of 4–5 % at equatorial latitudes, reducing to 3–4 % at polar latitudes
Summary
The visible and near-infrared spectra of both Uranus and Neptune are formed by the reflection of sunlight off its cloud layers, modulated mostly by the absorption of gaseous methane and Rayleigh scattering at blue wavelengths. In contrast to the MUSE spectral resolution of 2.45 Å in NFM, the best available source of methane absorption in this spectral range are the band-model coefficients of Karkoschka and Tomasko (2010), to which we have fitted k-distributions using exponential-sum fitting These data have a spectral resolution of 25 cm−1 between 19,300 and 25,000 cm−1 (0.518 – 0.4 μm), and 10 cm−1 at wavenumbers less than 19,300 cm−1 (0.518 μm). We chose to smooth the MUSE data to the resolution of the IRTF/ SpeX instrument, which has a triangular instrument function with FWHM = 20 Å (i.e 0.002 μm), sampled at 0.001 μm We find that this spectral resolution captures the essential shape of the observed spectra very well and has significantly better SNR than MUSE's native resolution, giving SNRs ranging from ∼ 80 at the reflectance peak to ∼ 40 at methane-absorbing wavelengths. We see reasonably good agreement between the VLT/MUSE and HST/WFC3 observations, which together with our reasonable correspondence with the albedo spectrum of Karkoschka (1994) leads us to conclude that the photometric calibration of our data is reliable and consistent with previous observations
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