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Main Authors: Kulkarni, Chinmay S., Behling, Thomas, Banks, Elisabeth E., Jones, Jason, Robbins, Tyler, Burns-Watson, Nathanael, Megeath, S. Thomas, Gutermuth, Robert, Federman, Samuel, Oliveira, Savio B., Zakri, Wafa, Fischer, William J., Pokhrel, Riwaj
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2601.21013
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author Kulkarni, Chinmay S.
Behling, Thomas
Banks, Elisabeth E.
Jones, Jason
Robbins, Tyler
Burns-Watson, Nathanael
Megeath, S. Thomas
Gutermuth, Robert
Federman, Samuel
Oliveira, Savio B.
Zakri, Wafa
Fischer, William J.
Pokhrel, Riwaj
author_facet Kulkarni, Chinmay S.
Behling, Thomas
Banks, Elisabeth E.
Jones, Jason
Robbins, Tyler
Burns-Watson, Nathanael
Megeath, S. Thomas
Gutermuth, Robert
Federman, Samuel
Oliveira, Savio B.
Zakri, Wafa
Fischer, William J.
Pokhrel, Riwaj
contents Infrared observations can probe photometric variability across the full evolutionary range of young stellar objects (YSOs), from deeply embedded protostars to pre-main-sequence stars with dusty disks. We present 3-8 micron light curves extending 27 years from 1997 to 2024 obtained with three space-based IR telescopes: ISO, Spitzer and WISE. Although unevenly sampled with large gaps in coverage, these light curves show variability on time scales ranging from days to decades. We focus on the Spitzer-identified YSOs with disks and envelopes that exhibit variations of a factor of two or more in this wavelength range. We identified seven YSOs where the light curves are dominated by bursts of sustained (> 5 yr) high flux, including four that show a steep decay ending the burst and three that are ongoing as of the final observation. We find six YSOs that are undergoing declines, which may be the end of bursts that began before 1997. The most common form of variability, exhibited by 26 YSOs in our sample, show variations over time intervals of years to months but do not exhibit sustained bursts or fades. The Spitzer [3.6]-[4.5] and WISE [3.5]-[4.6] colors either increase or remain constant with increasing brightness, inconsistent with dust extinction as being the primary source of the large-amplitude variability.
format Preprint
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institution arXiv
publishDate 2026
record_format arxiv
spellingShingle 27 years of Spaceborne IR Astronomy: An ISO, Spitzer, WISE and NEOWISE Survey for Large-Amplitude Variability in Young Stellar Objects
Kulkarni, Chinmay S.
Behling, Thomas
Banks, Elisabeth E.
Jones, Jason
Robbins, Tyler
Burns-Watson, Nathanael
Megeath, S. Thomas
Gutermuth, Robert
Federman, Samuel
Oliveira, Savio B.
Zakri, Wafa
Fischer, William J.
Pokhrel, Riwaj
Solar and Stellar Astrophysics
Infrared observations can probe photometric variability across the full evolutionary range of young stellar objects (YSOs), from deeply embedded protostars to pre-main-sequence stars with dusty disks. We present 3-8 micron light curves extending 27 years from 1997 to 2024 obtained with three space-based IR telescopes: ISO, Spitzer and WISE. Although unevenly sampled with large gaps in coverage, these light curves show variability on time scales ranging from days to decades. We focus on the Spitzer-identified YSOs with disks and envelopes that exhibit variations of a factor of two or more in this wavelength range. We identified seven YSOs where the light curves are dominated by bursts of sustained (> 5 yr) high flux, including four that show a steep decay ending the burst and three that are ongoing as of the final observation. We find six YSOs that are undergoing declines, which may be the end of bursts that began before 1997. The most common form of variability, exhibited by 26 YSOs in our sample, show variations over time intervals of years to months but do not exhibit sustained bursts or fades. The Spitzer [3.6]-[4.5] and WISE [3.5]-[4.6] colors either increase or remain constant with increasing brightness, inconsistent with dust extinction as being the primary source of the large-amplitude variability.
title 27 years of Spaceborne IR Astronomy: An ISO, Spitzer, WISE and NEOWISE Survey for Large-Amplitude Variability in Young Stellar Objects
topic Solar and Stellar Astrophysics
url https://arxiv.org/abs/2601.21013