Eight Years of Light from ASASSN-15oi: Toward Understanding the Late-time Evolution of TDEs

A. Hajela; K. D. Alexander; R. Margutti; R. Chornock; M. Bietenholz; C. T. Christy; M. Stroh; G. Terreran; R. Saxton; S. Komossa; J. S. Bright; E. Ramirez-Ruiz; D. L. Coppejans; J. K. Leung; Y. Cendes; E. Wiston; T. Laskar; A. Horesh; G. Schroeder; A. J. Nayana; M. H. Wieringa; N. Velez; E. Berger; P. K. Blanchard; T. Eftekhari; S. Gomez; M. Nicholl; H. Sears; B. A. Zauderer

doi:10.3847/1538-4357/adb620

Eight Years of Light from ASASSN-15oi: Toward Understanding the Late-time Evolution of TDEs

A. Hajela, K. D. Alexander, R. Margutti, R. Chornock, M. Bietenholz, C. T. Christy, M. Stroh, G. Terreran, R. Saxton, S. Komossa, J. S. Bright, E. Ramirez-Ruiz, D. L. Coppejans, J. K. Leung, Y. Cendes, E. Wiston, T. Laskar, A. Horesh, G. Schroeder, A. J. NayanaM. H. Wieringa, N. Velez, E. Berger, P. K. Blanchard, T. Eftekhari, S. Gomez, M. Nicholl, H. Sears, B. A. Zauderer

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Research output: Contribution to journal › Journal article › Research › peer-review

Abstract

We present results from an extensive follow-up campaign of the tidal disruption event (TDE) ASASSN-15oi spanning δt ∼ 10-3000 days, offering an unprecedented window into the multiwavelength properties of a TDE during its first ≈8 yr of evolution. ASASSN-15oi is one of the few TDEs with strong detections at X-ray, optical/UV, and radio wavelengths and it also featured two delayed radio flares at δt ∼ 180 days and δt ∼ 1400 days. Our observations at δt > 1400 days reveal an absence of thermal X-rays, a late-time variability in the nonthermal X-ray emission, and sharp declines in the nonthermal X-ray and radio emission at δt ∼ 2800 days and ∼3000 days, respectively. The UV emission shows no significant evolution at δt > 400 days and remains above the pre-TDE level. We show that a cooling envelope model can explain the thermal emission consistently across all epochs. We also find that a scenario involving episodic ejection of material due to stream-stream collisions can possibly explain the first radio flare. Given the peculiar spectral and temporal evolution of the late-time emission, however, constraining the origins of the second radio flare and the nonthermal X-rays remains challenging. Our study underscores the critical role of long-term, multiwavelength follow-up to fully characterize the extended evolutionary phases of a TDE.

Original language	English
Article number	29
Journal	Astrophysical Journal
Volume	983
Issue number	1
Number of pages	28
ISSN	0004-637X
DOIs	https://doi.org/10.3847/1538-4357/adb620
Publication status	Published - 2 Apr 2025

Bibliographical note

Publisher Copyright:
© 2025. The Author(s). Published by the American Astronomical Society.

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10.3847/1538-4357/adb620

Hajela_2025_ApJ_983_29Final published version, 15.2 MBLicence: CC BY

Cite this

Hajela, A., Alexander, K. D., Margutti, R., Chornock, R., Bietenholz, M., Christy, C. T., Stroh, M., Terreran, G., Saxton, R., Komossa, S., Bright, J. S., Ramirez-Ruiz, E., Coppejans, D. L., Leung, J. K., Cendes, Y., Wiston, E., Laskar, T., Horesh, A., Schroeder, G., ... Zauderer, B. A. (2025). Eight Years of Light from ASASSN-15oi: Toward Understanding the Late-time Evolution of TDEs. Astrophysical Journal, 983(1), Article 29. https://doi.org/10.3847/1538-4357/adb620

Hajela, A, Alexander, KD, Margutti, R, Chornock, R, Bietenholz, M, Christy, CT, Stroh, M, Terreran, G, Saxton, R, Komossa, S, Bright, JS, Ramirez-Ruiz, E, Coppejans, DL, Leung, JK, Cendes, Y, Wiston, E, Laskar, T, Horesh, A, Schroeder, G, Nayana, AJ, Wieringa, MH, Velez, N, Berger, E, Blanchard, PK, Eftekhari, T, Gomez, S, Nicholl, M, Sears, H & Zauderer, BA 2025, 'Eight Years of Light from ASASSN-15oi: Toward Understanding the Late-time Evolution of TDEs', Astrophysical Journal, vol. 983, no. 1, 29. https://doi.org/10.3847/1538-4357/adb620

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title = "Eight Years of Light from ASASSN-15oi: Toward Understanding the Late-time Evolution of TDEs",

abstract = "We present results from an extensive follow-up campaign of the tidal disruption event (TDE) ASASSN-15oi spanning δt ∼ 10-3000 days, offering an unprecedented window into the multiwavelength properties of a TDE during its first ≈8 yr of evolution. ASASSN-15oi is one of the few TDEs with strong detections at X-ray, optical/UV, and radio wavelengths and it also featured two delayed radio flares at δt ∼ 180 days and δt ∼ 1400 days. Our observations at δt > 1400 days reveal an absence of thermal X-rays, a late-time variability in the nonthermal X-ray emission, and sharp declines in the nonthermal X-ray and radio emission at δt ∼ 2800 days and ∼3000 days, respectively. The UV emission shows no significant evolution at δt > 400 days and remains above the pre-TDE level. We show that a cooling envelope model can explain the thermal emission consistently across all epochs. We also find that a scenario involving episodic ejection of material due to stream-stream collisions can possibly explain the first radio flare. Given the peculiar spectral and temporal evolution of the late-time emission, however, constraining the origins of the second radio flare and the nonthermal X-rays remains challenging. Our study underscores the critical role of long-term, multiwavelength follow-up to fully characterize the extended evolutionary phases of a TDE.",

author = "A. Hajela and Alexander, {K. D.} and R. Margutti and R. Chornock and M. Bietenholz and Christy, {C. T.} and M. Stroh and G. Terreran and R. Saxton and S. Komossa and Bright, {J. S.} and E. Ramirez-Ruiz and Coppejans, {D. L.} and Leung, {J. K.} and Y. Cendes and E. Wiston and T. Laskar and A. Horesh and G. Schroeder and Nayana, {A. J.} and Wieringa, {M. H.} and N. Velez and E. Berger and Blanchard, {P. K.} and T. Eftekhari and S. Gomez and M. Nicholl and H. Sears and Zauderer, {B. A.}",

note = "Publisher Copyright: {\textcopyright} 2025. The Author(s). Published by the American Astronomical Society.",

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doi = "10.3847/1538-4357/adb620",

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TY - JOUR

T1 - Eight Years of Light from ASASSN-15oi

T2 - Toward Understanding the Late-time Evolution of TDEs

AU - Hajela, A.

AU - Alexander, K. D.

AU - Margutti, R.

AU - Chornock, R.

AU - Bietenholz, M.

AU - Christy, C. T.

AU - Stroh, M.

AU - Terreran, G.

AU - Saxton, R.

AU - Komossa, S.

AU - Bright, J. S.

AU - Ramirez-Ruiz, E.

AU - Coppejans, D. L.

AU - Leung, J. K.

AU - Cendes, Y.

AU - Wiston, E.

AU - Laskar, T.

AU - Horesh, A.

AU - Schroeder, G.

AU - Nayana, A. J.

AU - Wieringa, M. H.

AU - Velez, N.

AU - Berger, E.

AU - Blanchard, P. K.

AU - Eftekhari, T.

AU - Gomez, S.

AU - Nicholl, M.

AU - Sears, H.

AU - Zauderer, B. A.

PY - 2025/4/2

Y1 - 2025/4/2

N2 - We present results from an extensive follow-up campaign of the tidal disruption event (TDE) ASASSN-15oi spanning δt ∼ 10-3000 days, offering an unprecedented window into the multiwavelength properties of a TDE during its first ≈8 yr of evolution. ASASSN-15oi is one of the few TDEs with strong detections at X-ray, optical/UV, and radio wavelengths and it also featured two delayed radio flares at δt ∼ 180 days and δt ∼ 1400 days. Our observations at δt > 1400 days reveal an absence of thermal X-rays, a late-time variability in the nonthermal X-ray emission, and sharp declines in the nonthermal X-ray and radio emission at δt ∼ 2800 days and ∼3000 days, respectively. The UV emission shows no significant evolution at δt > 400 days and remains above the pre-TDE level. We show that a cooling envelope model can explain the thermal emission consistently across all epochs. We also find that a scenario involving episodic ejection of material due to stream-stream collisions can possibly explain the first radio flare. Given the peculiar spectral and temporal evolution of the late-time emission, however, constraining the origins of the second radio flare and the nonthermal X-rays remains challenging. Our study underscores the critical role of long-term, multiwavelength follow-up to fully characterize the extended evolutionary phases of a TDE.

AB - We present results from an extensive follow-up campaign of the tidal disruption event (TDE) ASASSN-15oi spanning δt ∼ 10-3000 days, offering an unprecedented window into the multiwavelength properties of a TDE during its first ≈8 yr of evolution. ASASSN-15oi is one of the few TDEs with strong detections at X-ray, optical/UV, and radio wavelengths and it also featured two delayed radio flares at δt ∼ 180 days and δt ∼ 1400 days. Our observations at δt > 1400 days reveal an absence of thermal X-rays, a late-time variability in the nonthermal X-ray emission, and sharp declines in the nonthermal X-ray and radio emission at δt ∼ 2800 days and ∼3000 days, respectively. The UV emission shows no significant evolution at δt > 400 days and remains above the pre-TDE level. We show that a cooling envelope model can explain the thermal emission consistently across all epochs. We also find that a scenario involving episodic ejection of material due to stream-stream collisions can possibly explain the first radio flare. Given the peculiar spectral and temporal evolution of the late-time emission, however, constraining the origins of the second radio flare and the nonthermal X-rays remains challenging. Our study underscores the critical role of long-term, multiwavelength follow-up to fully characterize the extended evolutionary phases of a TDE.

U2 - 10.3847/1538-4357/adb620

DO - 10.3847/1538-4357/adb620

M3 - Journal article

AN - SCOPUS:105002246228

SN - 0004-637X

VL - 983

JO - Astrophysical Journal

JF - Astrophysical Journal

IS - 1

M1 - 29

ER -