_version_ 1866908676480040960
author Maschmann, Daniel
Whitmore, Bradley C.
Thilker, David A.
Gerasimov, Ivan
Glover, Simon C. O.
Draine, B. T.
Lehmer, Bret
Bajaj, Varun
Sarbadhicary, Sumit
Boquien, Médéric
Sloan, G. C.
Weinbeck, Tony D.
Dale, Daniel A.
Henny, Kiana
Larson, Kirsten L.
Rodríguez, M. Jimena
Kennicutt, Robert
Amiri, Amirnezam
Barnes, Ashley. T.
Böker, Torsten
Boyer, Martha
Liu, Daizhong
Egorov, Oleg V.
Kim, Hwihyun
Klessen, Ralf S.
Lai, Thomas S. -Y.
Lee, Janice C.
Leroy, Adam K.
Linden, Sean T.
Roman-Duval, Julia
Sandstrom, Karin
Schinnerer, Eva
Smith, J. D.
Úbeda, Leonardo
Walch, Stefanie
Watkins, E.
Williams, Thomas G.
Cao, Yixian
author_facet Maschmann, Daniel
Whitmore, Bradley C.
Thilker, David A.
Gerasimov, Ivan
Glover, Simon C. O.
Draine, B. T.
Lehmer, Bret
Bajaj, Varun
Sarbadhicary, Sumit
Boquien, Médéric
Sloan, G. C.
Weinbeck, Tony D.
Dale, Daniel A.
Henny, Kiana
Larson, Kirsten L.
Rodríguez, M. Jimena
Kennicutt, Robert
Amiri, Amirnezam
Barnes, Ashley. T.
Böker, Torsten
Boyer, Martha
Liu, Daizhong
Egorov, Oleg V.
Kim, Hwihyun
Klessen, Ralf S.
Lai, Thomas S. -Y.
Lee, Janice C.
Leroy, Adam K.
Linden, Sean T.
Roman-Duval, Julia
Sandstrom, Karin
Schinnerer, Eva
Smith, J. D.
Úbeda, Leonardo
Walch, Stefanie
Watkins, E.
Williams, Thomas G.
Cao, Yixian
contents Dust production is a fundamental aspect of the baryonic cycle of star formation. It is known that dust is injected into the interstellar medium during early star formation by supernovae and later on by evolved stars. From individual objects, these mechanisms are well understood, but the overall dust production in star clusters at different evolutionary stages is still challenging to quantify. We present 22 massive (> 105M$_{\odot}$) extra galactic star clusters with ages between 3 and 100 Myr exhibiting a compact dust morphology seen with JWST-MIRI. We only find PAH features associated with one star cluster and nineteen have already cleared themselves from their natal dust. Their main characteristic is a significant enhancement at 10$μ$m, which is likely due to silicate emission and cannot be explained by ionized gas. We discuss several possible explanations including dust production from evolved stars such as red super giants, more exotic star types like yellow hypergiants and luminous blue variable stars. Stochastic dust injection from supernovae or a single supernova in dense gas can also create significant silicate emission. However, for this scenario secondary tracers such as a X-ray signal are expected which we only observe in three star clusters. We find the most luminous 10$μ$m emitter to be the three most massive star clusters (> 106M$_{\odot}$) which is at least a magnitude stronger than any known stellar sources indicating a rare mechanism that only appears at extreme masses and a short lifetime.
format Preprint
id arxiv_https___arxiv_org_abs_2511_20775
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Ashes of Creation: JWST Uncovers Silicate Dust in Massive Star Clusters
Maschmann, Daniel
Whitmore, Bradley C.
Thilker, David A.
Gerasimov, Ivan
Glover, Simon C. O.
Draine, B. T.
Lehmer, Bret
Bajaj, Varun
Sarbadhicary, Sumit
Boquien, Médéric
Sloan, G. C.
Weinbeck, Tony D.
Dale, Daniel A.
Henny, Kiana
Larson, Kirsten L.
Rodríguez, M. Jimena
Kennicutt, Robert
Amiri, Amirnezam
Barnes, Ashley. T.
Böker, Torsten
Boyer, Martha
Liu, Daizhong
Egorov, Oleg V.
Kim, Hwihyun
Klessen, Ralf S.
Lai, Thomas S. -Y.
Lee, Janice C.
Leroy, Adam K.
Linden, Sean T.
Roman-Duval, Julia
Sandstrom, Karin
Schinnerer, Eva
Smith, J. D.
Úbeda, Leonardo
Walch, Stefanie
Watkins, E.
Williams, Thomas G.
Cao, Yixian
Astrophysics of Galaxies
Dust production is a fundamental aspect of the baryonic cycle of star formation. It is known that dust is injected into the interstellar medium during early star formation by supernovae and later on by evolved stars. From individual objects, these mechanisms are well understood, but the overall dust production in star clusters at different evolutionary stages is still challenging to quantify. We present 22 massive (> 105M$_{\odot}$) extra galactic star clusters with ages between 3 and 100 Myr exhibiting a compact dust morphology seen with JWST-MIRI. We only find PAH features associated with one star cluster and nineteen have already cleared themselves from their natal dust. Their main characteristic is a significant enhancement at 10$μ$m, which is likely due to silicate emission and cannot be explained by ionized gas. We discuss several possible explanations including dust production from evolved stars such as red super giants, more exotic star types like yellow hypergiants and luminous blue variable stars. Stochastic dust injection from supernovae or a single supernova in dense gas can also create significant silicate emission. However, for this scenario secondary tracers such as a X-ray signal are expected which we only observe in three star clusters. We find the most luminous 10$μ$m emitter to be the three most massive star clusters (> 106M$_{\odot}$) which is at least a magnitude stronger than any known stellar sources indicating a rare mechanism that only appears at extreme masses and a short lifetime.
title Ashes of Creation: JWST Uncovers Silicate Dust in Massive Star Clusters
topic Astrophysics of Galaxies
url https://arxiv.org/abs/2511.20775