125,003 research outputs found
Discovery of a Kiloparsec Scale X-ray/Radio Jet in the z=4.72 Quasar GB 1428+4217
We report the discovery of a one-sided 3.6" (24 kpc, projected) long jet in
the high-redshift, z=4.72, quasar GB 1428+4217 in new Chandra X-ray and VLA
radio observations. This is the highest redshift kiloparsec-scale X-ray/radio
jet known. Analysis of archival VLBI 2.3 and 8.6 GHz data reveal a faint
one-sided jet extending out to ~200 parsecs and aligned to within ~30 deg of
the Chandra/VLA emission. The 3.6" distant knot is not detected in an archival
HST image, and its broad-band spectral energy distribution is consistent with
an origin from inverse Compton scattering of cosmic microwave background
photons for the X-rays. Assuming also equipartition between the radiating
particles and magnetic field, the implied jet Lorentz factor is ~5. This is
similar to the other two known z ~ 4 kpc-scale X-ray jet cases and smaller than
typically inferred in lower-redshift cases. Although there are still but a few
such very high-redshift quasar X-ray jets known, for an inverse Compton origin,
the present data suggest that they are less relativistic on large-scales than
their lower-redshift counterparts.Comment: ApJL, accepted, 5 pages, 3 figure
Chiral differential operators on supermanifolds
The first part of this paper provides a new formulation of chiral
differential operators (CDOs) in terms of global geometric quantities. The main
result is a recipe to define all sheaves of CDOs on a smooth cs-manifold; its
ingredients consist of an affine connection and an even 3-form that trivializes
the first Pontrjagin form. With the connection fixed, two suitable 3-forms
define isomorphic sheaves of CDOs if and only if their difference is exact.
Moreover, conformal structures are in one-to-one correspondence with even
1-forms that trivialize the first Chern form.
Applying our work in the first part, we construct what may be called "chiral
Dolbeault complexes" of a complex manifold M, and analyze conditions under
which these differential vertex superalgebras admit compatible conformal
structures or extra gradings (fermion numbers). When M is compact, their
cohomology computes (in various cases) the Witten genus, the two-variable
elliptic genus and a spin-c version of the Witten genus. This part contains
some new results as well as provides a geometric formulation of certain known
facts from the study of holomorphic CDOs and sigma models.Comment: much simplified calculations in section 3, making full use of the
formulation from section 2; improved notation
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