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Data-driven models for stellar spectra which depend on stellar labels suffer from label systematics which decrease model performance: the "stellar labels gap". To close the stellar labels gap, we present a stellar label independent model for Gaia BP/RP (XP) spectra. We develop a novel implementation of a variational auto-encoder; a scatter VAE, which learns to generate an XP spectrum and intrinsic scatter without relying on stellar labels. We demonstrate that our model achieves competitive XP spectra reconstructions in comparison to stellar label dependent models. We find that our model learns stellar properties directly from the data itself. We then apply our model to XP/APOGEE giant stars to study the /M information in Gaia XP. We provide strong evidence that the XP spectra contain meaningful /M information by demonstrating that our model learns the -bimodality without relying on stellar label correlations, for stars with T ₄₅₅ < 5000 K. We publicly release our trained model, codebase and data. Importantly, our stellar label independent model can be implemented for any/all XP spectra because our model performance scales with training object density, not training label density.
Laroche et al. (Wed,) studied this question.
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