Guardado en:
Detalles Bibliográficos
Autores principales: Hedman, M. M., de Pater, I., Cartwright, R., Moutamid, M. El, DeColibus, R., Showalter, M., Tiscareno, M. S., Rowe-Gurney, N., Roman, M. T., Fletcher, L., Hammel, H. B.
Formato: Preprint
Publicado: 2025
Materias:
Acceso en línea:https://arxiv.org/abs/2506.18650
Etiquetas: Agregar Etiqueta
Sin Etiquetas, Sea el primero en etiquetar este registro!
_version_ 1866918130801967104
author Hedman, M. M.
de Pater, I.
Cartwright, R.
Moutamid, M. El
DeColibus, R.
Showalter, M.
Tiscareno, M. S.
Rowe-Gurney, N.
Roman, M. T.
Fletcher, L.
Hammel, H. B.
author_facet Hedman, M. M.
de Pater, I.
Cartwright, R.
Moutamid, M. El
DeColibus, R.
Showalter, M.
Tiscareno, M. S.
Rowe-Gurney, N.
Roman, M. T.
Fletcher, L.
Hammel, H. B.
contents JWST NIRCam images provide low-resolution spectra of the rings and inner moons orbiting Uranus and Neptune. These data reveal systematic variations in spectral parameters like the strength of the strong OH absorption band around 3 microns and the spectral slopes at continuum wavelengths. Neptune's rings show an extremely weak 3-micron band, which is likely due to the small particle sizes in these dusty rings. Neptune's small inner moons also have weaker 3-micron bands and redder continua than Uranus' small inner moons, indicating that Neptune's moons have a lower water-ice fraction. There are also clear spectral trends across the inner Uranian system. The strength of the 3-micron band clearly increases with distance from Uranus, with the rings having a noticeably weaker 3-micron band than most of the small inner moons, which have a weaker 3-micron band than the larger moons like Miranda. While the rings and most of the small moons have neutral spectra between 1.4 microns and 2.1 microns, the outermost small moon Mab exhibits a blue spectral slope comparable to Miranda, indicating that Mab's surface may also be relatively water-ice rich. The next moon interior to Mab, Puck, exhibits a stronger 3-micron band and bluer continuum slope than any of the moons orbiting interior to it, perhaps indicating that it is being covered by water-ice-rich material derived from Mab via the mu ring. Finally, the small moon Rosalind has a redder spectral slope than its neighbors, possibly due to being coated with material from the dusty nu ring.
format Preprint
id arxiv_https___arxiv_org_abs_2506_18650
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Spectral trends across the rings and inner moons of Uranus and Neptune from JWST NIRCam images
Hedman, M. M.
de Pater, I.
Cartwright, R.
Moutamid, M. El
DeColibus, R.
Showalter, M.
Tiscareno, M. S.
Rowe-Gurney, N.
Roman, M. T.
Fletcher, L.
Hammel, H. B.
Earth and Planetary Astrophysics
JWST NIRCam images provide low-resolution spectra of the rings and inner moons orbiting Uranus and Neptune. These data reveal systematic variations in spectral parameters like the strength of the strong OH absorption band around 3 microns and the spectral slopes at continuum wavelengths. Neptune's rings show an extremely weak 3-micron band, which is likely due to the small particle sizes in these dusty rings. Neptune's small inner moons also have weaker 3-micron bands and redder continua than Uranus' small inner moons, indicating that Neptune's moons have a lower water-ice fraction. There are also clear spectral trends across the inner Uranian system. The strength of the 3-micron band clearly increases with distance from Uranus, with the rings having a noticeably weaker 3-micron band than most of the small inner moons, which have a weaker 3-micron band than the larger moons like Miranda. While the rings and most of the small moons have neutral spectra between 1.4 microns and 2.1 microns, the outermost small moon Mab exhibits a blue spectral slope comparable to Miranda, indicating that Mab's surface may also be relatively water-ice rich. The next moon interior to Mab, Puck, exhibits a stronger 3-micron band and bluer continuum slope than any of the moons orbiting interior to it, perhaps indicating that it is being covered by water-ice-rich material derived from Mab via the mu ring. Finally, the small moon Rosalind has a redder spectral slope than its neighbors, possibly due to being coated with material from the dusty nu ring.
title Spectral trends across the rings and inner moons of Uranus and Neptune from JWST NIRCam images
topic Earth and Planetary Astrophysics
url https://arxiv.org/abs/2506.18650