%0 Generic %1 siebenmorgen2023distance %A Siebenmorgen, Ralf %A Chini, Rolf %D 2023 %K tifr %T The Distance to the Stars %U http://arxiv.org/abs/2311.03310 %X The vastness of a clear night sky evokes curiosity about the distance to the stars. There are two primary methods for estimating stellar distances, parallax and luminosity. In this study, we present a new analysis revealing a noteworthy discrepancy between these two methods. Due to the accuracy of GAIA, parallaxes can directly be converted into distances. In contrast, luminosity distances require, apart from the determination of the apparent and absolute brightness of a star, the reddening value that allows a correction for interstellar extinction. Using 47 stars with non-peculiar reddening curves from the high-quality sample we find here that the luminosity distance overestimates the parallactic distance for most (80 %) of these stars. This puzzling discrepancy can only be removed when incorporating a new population of large dust grains, so-called dark dust, with our model that respects contemporary constraints of the inter-stellar dust and is updated to scope for the first time with absolute reddening. The model provides a visual extinction which unifies the conflicting distances. Another far-reaching consequence of the flat absorption and scattering properties of dark dust is that it broadens the light curves of SN Ia, which serves as a measure of the quantity of dark energy.

@misc{siebenmorgen2023distance, abstract = {The vastness of a clear night sky evokes curiosity about the distance to the stars. There are two primary methods for estimating stellar distances, parallax and luminosity. In this study, we present a new analysis revealing a noteworthy discrepancy between these two methods. Due to the accuracy of GAIA, parallaxes can directly be converted into distances. In contrast, luminosity distances require, apart from the determination of the apparent and absolute brightness of a star, the reddening value that allows a correction for interstellar extinction. Using 47 stars with non-peculiar reddening curves from the high-quality sample we find here that the luminosity distance overestimates the parallactic distance for most (80 %) of these stars. This puzzling discrepancy can only be removed when incorporating a new population of large dust grains, so-called dark dust, with our model that respects contemporary constraints of the inter-stellar dust and is updated to scope for the first time with absolute reddening. The model provides a visual extinction which unifies the conflicting distances. Another far-reaching consequence of the flat absorption and scattering properties of dark dust is that it broadens the light curves of SN Ia, which serves as a measure of the quantity of dark energy.}, added-at = {2023-11-07T06:39:47.000+0100}, author = {Siebenmorgen, Ralf and Chini, Rolf}, biburl = {https://www.bibsonomy.org/bibtex/2d27634c16f79c048f6ae59f73b53795c/citekhatri}, description = {[2311.03310] The Distance to the Stars}, interhash = {c776eb47d1de639e496d3bc4b3b72ebf}, intrahash = {d27634c16f79c048f6ae59f73b53795c}, keywords = {tifr}, note = {cite arxiv:2311.03310Comment: submitted}, timestamp = {2023-11-07T06:39:47.000+0100}, title = {The Distance to the Stars}, url = {http://arxiv.org/abs/2311.03310}, year = 2023 }