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Direct spectroscopic confirmation of the young embedded proto-planet WISPIT 2c

Direct spectroscopic confirmation of the young embedded proto-planet WISPIT 2c
Direct spectroscopic confirmation of the young embedded proto-planet WISPIT 2c
WISPIT 2 is a nearby young star with a multi-ringed disk which was recently confirmed to host a ~4.9 MJup gas giant planet embedded in a large (60 au) gap at a radial separation of 57 au from the host star. We confirm and characterise a second, close-in planet in the WISPIT 2 system using a combination of new VLT/SPHERE H-band dual-polarisation imaging and VLTI/GRAVITY K-band interferometric observations of the WISPIT 2 system. The GRAVITY detection is consistent with a point-like source while its extracted K-band spectrum shows CO band-head absorption at 2.3 microns and a continuum shape consistent with a young giant planet. From the GRAVITY data we extract a medium resolution K-band spectrum of the companion and fit atmospheric model grids using the species tool with nested sampling to constrain its effective temperature, radius, and luminosity. We infer Teff of 1500-2600 K, a radius of 0.91-2.2 RJup, and a luminosity of (-3.47)-(-3.63). Comparison with evolutionary tracks implies a mass range of 8-12 MJup, approximately twice as massive as the previously confirmed WISPIT 2b. The astrometry rules out a background source and marginally detects orbital motion of WISPIT 2c, which needs further follow-up observations for confirmation. WISPIT 2 now becomes an analogue to PDS 70, offering a second laboratory for studying the formation and early evolution of a multi-planet system within its natal disk.
astro-ph.EP
2041-8205
Lawlor, Chloe
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van Capelleveen, Richelle F.
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Bourdarot, Guillaume
93075e94-55c5-4493-9ffb-73ade944ce9c
Ginski, Christian
cb7d8fa1-a323-4547-b613-277a6e342d71
Kenworthy, Matthew A.
8ffc6211-bdf2-414b-a4f9-19791db7cac7
Stolker, Tomas
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Close, Laird
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Bohn, Alexander J.
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Eisenhauer, Frank
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Garcia, Paulo
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Hönig, Sebastian F.
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Kammerer, Jens
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Kreidberg, Laura
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Lacour, Sylvestre
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Bouquin, Jean-Baptiste Le
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Mamajek, Eric
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Nowak, Mathias
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Paumard, Thibaut
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Straubmeier, Christian
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van der Marel, Nienke
e9eac262-7f1f-46e5-9759-6fbff494ac65
Lawlor, Chloe
b98b1db0-73a0-40f3-993e-f58a8136a053
van Capelleveen, Richelle F.
6ecda77d-cfce-4666-aa34-67de0f7ca43b
Bourdarot, Guillaume
93075e94-55c5-4493-9ffb-73ade944ce9c
Ginski, Christian
cb7d8fa1-a323-4547-b613-277a6e342d71
Kenworthy, Matthew A.
8ffc6211-bdf2-414b-a4f9-19791db7cac7
Stolker, Tomas
32b73fa9-3f9f-410b-9ec5-0a54fda32960
Close, Laird
a9b380de-76cb-4e19-baf1-1a8cdfff49c3
Bohn, Alexander J.
f4e7ee15-093e-4f85-9e09-f9e872aaa1a9
Eisenhauer, Frank
c862dd4b-c235-4800-8693-d020d9ab5753
Garcia, Paulo
3da095d0-d1e6-46c4-83d2-6b64ca684fb7
Hönig, Sebastian F.
be0bb8bc-bdac-4442-8edc-f735834f3917
Kammerer, Jens
06d4a606-3c67-487a-bf26-04e8168dd503
Kreidberg, Laura
ac741be6-14cf-4dbe-b53f-64d14a576d3e
Lacour, Sylvestre
401ef323-cfdb-4d0f-82d1-696103ce3b61
Bouquin, Jean-Baptiste Le
a9911a6d-be4a-4159-b194-8823c9f2e99f
Mamajek, Eric
012634bd-26d5-4609-ab67-900caefe0261
Nowak, Mathias
e352ac48-3fc1-44fd-b63e-f48fbea68751
Paumard, Thibaut
d726ed41-3181-401a-bfae-38dea8525774
Straubmeier, Christian
08b0bf67-7329-47e9-8a02-04f4ca0f63e9
van der Marel, Nienke
e9eac262-7f1f-46e5-9759-6fbff494ac65

Lawlor, Chloe, van Capelleveen, Richelle F., Bourdarot, Guillaume, Ginski, Christian, Kenworthy, Matthew A., Stolker, Tomas, Close, Laird, Bohn, Alexander J., Eisenhauer, Frank, Garcia, Paulo, Hönig, Sebastian F., Kammerer, Jens, Kreidberg, Laura, Lacour, Sylvestre, Bouquin, Jean-Baptiste Le, Mamajek, Eric, Nowak, Mathias, Paumard, Thibaut, Straubmeier, Christian and van der Marel, Nienke (2026) Direct spectroscopic confirmation of the young embedded proto-planet WISPIT 2c. The Astrophysical Journal Letters, 1000 (2), [L38]. (doi:10.3847/2041-8213/ae4b3b).

Record type: Article

Abstract

WISPIT 2 is a nearby young star with a multi-ringed disk which was recently confirmed to host a ~4.9 MJup gas giant planet embedded in a large (60 au) gap at a radial separation of 57 au from the host star. We confirm and characterise a second, close-in planet in the WISPIT 2 system using a combination of new VLT/SPHERE H-band dual-polarisation imaging and VLTI/GRAVITY K-band interferometric observations of the WISPIT 2 system. The GRAVITY detection is consistent with a point-like source while its extracted K-band spectrum shows CO band-head absorption at 2.3 microns and a continuum shape consistent with a young giant planet. From the GRAVITY data we extract a medium resolution K-band spectrum of the companion and fit atmospheric model grids using the species tool with nested sampling to constrain its effective temperature, radius, and luminosity. We infer Teff of 1500-2600 K, a radius of 0.91-2.2 RJup, and a luminosity of (-3.47)-(-3.63). Comparison with evolutionary tracks implies a mass range of 8-12 MJup, approximately twice as massive as the previously confirmed WISPIT 2b. The astrometry rules out a background source and marginally detects orbital motion of WISPIT 2c, which needs further follow-up observations for confirmation. WISPIT 2 now becomes an analogue to PDS 70, offering a second laboratory for studying the formation and early evolution of a multi-planet system within its natal disk.

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Accepted/In Press date: 25 February 2026
e-pub ahead of print date: 24 March 2026
Keywords: astro-ph.EP
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Identifiers

Local EPrints ID: 511181
URI: http://eprints.soton.ac.uk/id/eprint/511181
DOI: doi:10.3847/2041-8213/ae4b3b
ISSN: 2041-8205
PURE UUID: 9ae9dc30-56f0-4407-b129-9ba4601f79bb

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Date deposited: 06 May 2026 16:30
Last modified: 06 May 2026 16:31

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Contributors

Author: Chloe Lawlor
Author: Richelle F. van Capelleveen
Author: Guillaume Bourdarot
Author: Christian Ginski
Author: Matthew A. Kenworthy
Author: Tomas Stolker
Author: Laird Close
Author: Alexander J. Bohn
Author: Frank Eisenhauer
Author: Paulo Garcia
Author: Sebastian F. Hönig
Author: Jens Kammerer
Author: Laura Kreidberg
Author: Sylvestre Lacour
Author: Jean-Baptiste Le Bouquin
Author: Eric Mamajek
Author: Mathias Nowak
Author: Thibaut Paumard
Author: Christian Straubmeier
Author: Nienke van der Marel

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