We present new, multiwavelength, high-resolution imaging of the luminous, s
ubmillimeter galaxy SMM J14011+0252, an interacting starburst at z = 2.56.
Our observations comprise optical imaging from the Hubble Space Telescope,
sensitive radio mapping from the Very Large Array, and CO observations from
the Owens Valley Radio Observatory and Berkeley-Illinois-Maryland Associat
ion array. Aided by well-constrained gravitational amplification, we use th
ese new data to map the distribution of gas and both obscured and unobscure
d starlight. The maps show that the gas and star formation are extended on
scales of greater than or similar to 10 kpc, much larger than starbursts se
en in local ultraluminous galaxies and larger than the rest-frame UV-bright
components of SMM J14011+0252, J1/J2. The most vigorous star formation is
marked by peaks in both the molecular gas and radio emission, similar to1"
north of J1/J2, in the vicinity of J1n, an apparent faint extension of J1.
Using new sub-0."5 K-band imaging from the United Kingdom Infrared Telescop
e, we identify J1n as an extremely red object. We suggest that while J1 and
J2 are clearly associated with the submillimeter source, they are merely w
indows through the dust, or unobscured companions to a large and otherwise
opaque star-forming system. Hence, their rest-frame UV properties are unlik
ely to be relevant for understanding the detailed internal physics of the s
tarburst.