Cubic vertices of arbitrary-spin massless fields in lightcone gauge are expressed as direct generalizations of abelian vertices built from linearized curvatures, yielding consistency of self-dual theories in (A)dS with no higher vertices needed.
Consistent equation for interacting gauge fields of all spins in (3+1)-dimensions
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Bilocal holography yields a remarkably local bulk reconstruction formula that agrees with standard methods once boundary data and gauge-fixed variables are matched, while clarifying subregion duality.
Self-dual double copy extends to higher-spin fields via light-cone prepotentials, enabling higher-spin solutions and multicopy Weyl patterns for Kerr-Schild self-dual backgrounds.
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Universal structure in the interactions of massless fields on the lightcone
Cubic vertices of arbitrary-spin massless fields in lightcone gauge are expressed as direct generalizations of abelian vertices built from linearized curvatures, yielding consistency of self-dual theories in (A)dS with no higher vertices needed.
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Bulk Reconstruction in Bilocal Holography
Bilocal holography yields a remarkably local bulk reconstruction formula that agrees with standard methods once boundary data and gauge-fixed variables are matched, while clarifying subregion duality.
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Self-dual classical higher-spin multicopy
Self-dual double copy extends to higher-spin fields via light-cone prepotentials, enabling higher-spin solutions and multicopy Weyl patterns for Kerr-Schild self-dual backgrounds.