TY - JOUR
T1 - Emission-line wings driven by lyman continuum in the Green Pea analog Mrk 71
AU - Komarova, Lena
AU - Oey, M. S.
AU - Krumholz, Mark R.
AU - Silich, Sergiy
AU - Kumari, Nimisha
AU - James, Bethan L.
N1 - Publisher Copyright:
© 2021. The American Astronomical Society. All rights reserved.
PY - 2021/10/20
Y1 - 2021/10/20
N2 - We propose that the origin of faint, broad emission-line wings in the Green Pea (GP) analog Mrk 71 is a clumpy, LyC, and/or Lyα-driven superwind. Our spatially resolved analysis of Gemini-N/GMOS-IFU observations shows that these line wings with terminal velocity >3000 km s−1 originate from the super star cluster Knot A, and propagate to large radii. The object’s observed ionization parameter and stellar surface density are close to their theoretical maxima, and radiation pressure dominates over gas pressure. Together with a lack of evidence for supernova feedback, these imply a radiation-dominated environment. We demonstrate that a clumpy, radiation-driven superwind from Knot A is a viable model for generating the extreme velocities, and in particular, that Lyman continuum and/or Lyα opacity must be responsible. We find that the Mrk 71 broad wings are best fitted with power laws, as are those of a representative extreme GP and a luminous blue variable star, albeit with different slopes. This suggests that they may share a common wind-acceleration mechanism. We propose that high-velocity, power-law wings may be a distinctive signature of radiation feedback, and of radiatively driven winds, in particular.
AB - We propose that the origin of faint, broad emission-line wings in the Green Pea (GP) analog Mrk 71 is a clumpy, LyC, and/or Lyα-driven superwind. Our spatially resolved analysis of Gemini-N/GMOS-IFU observations shows that these line wings with terminal velocity >3000 km s−1 originate from the super star cluster Knot A, and propagate to large radii. The object’s observed ionization parameter and stellar surface density are close to their theoretical maxima, and radiation pressure dominates over gas pressure. Together with a lack of evidence for supernova feedback, these imply a radiation-dominated environment. We demonstrate that a clumpy, radiation-driven superwind from Knot A is a viable model for generating the extreme velocities, and in particular, that Lyman continuum and/or Lyα opacity must be responsible. We find that the Mrk 71 broad wings are best fitted with power laws, as are those of a representative extreme GP and a luminous blue variable star, albeit with different slopes. This suggests that they may share a common wind-acceleration mechanism. We propose that high-velocity, power-law wings may be a distinctive signature of radiation feedback, and of radiatively driven winds, in particular.
KW - Galaxy winds (626)
KW - H II regions (694)
KW - Intergalactic medium (813)
KW - Interstellar line emission (844)
KW - Interstellar medium wind (848)
KW - Lyman-alpha galaxies (978)
KW - Radiative transfer (1335)
KW - Starburst galaxies (1570)
KW - Stellar feedback (1602)
KW - Unified astronomy thesaurus concepts: dwarf irregular galaxies (417)
KW - Young massive clusters (2049)
UR - http://www.scopus.com/inward/record.url?scp=85119173115&partnerID=8YFLogxK
U2 - 10.3847/2041-8213/ac2c09
DO - 10.3847/2041-8213/ac2c09
M3 - Article
SN - 2041-8205
VL - 920
JO - Astrophysical Journal Letters
JF - Astrophysical Journal Letters
IS - 2
M1 - L39
ER -