Abstract
We study the conformal bootstrap for 4-point functions of stress tensors in parity-preserving 3d CFTs. To set up the bootstrap equations, we analyze the constraints of conformal symmetry, permutation symmetry, and conservation on the stress-tensor 4-point function and identify a non-redundant set of crossing equations. Studying these equations numerically using semidefinite optimization, we compute bounds on the central charge as a function of the independent coefficient in the stress-tensor 3-point function. With no additional assumptions, these bounds numerically reproduce the conformal collider bounds and give a general lower bound on the central charge. We also study the effect of gaps in the scalar, spin-2, and spin-4 spectra on the central charge bound. We find general upper bounds on these gaps as well as tighter restrictions on the stress-tensor 3-point function coefficients for theories with moderate gaps. When the gap for the leading scalar or spin-2 operator is sufficiently large to exclude large N theories, we also obtain upper bounds on the central charge, thus finding compact allowed regions. Finally, assuming the known low-lying spectrum and central charge of the critical 3d Ising model, we determine its stress-tensor 3-point function and derive a bound on its leading parity-odd scalar.
Highlights
The conformal bootstrap [1,2,3,4] uses basic consistency conditions to bound the space of conformal field theories
Bounds from fermionic correlators [18, 19, 41] apply to theories with fermions, and the recent bounds in [42] apply to any 3d CFT with a continuous global symmetry
We study the constraints of conformal symmetry and unitarity on a four-point function of stress tensors in 3d CFTs
Summary
The conformal bootstrap [1,2,3,4] (see [5,6,7] for reviews) uses basic consistency conditions to bound the space of conformal field theories. By making fewer assumptions about the theories being studied, one can derive more universal bounds.. A stress tensor (i.e. a conserved spin-2 operator whose integrals are the conformal charges) is necessarily present in any local CFT.. We study the constraints of conformal symmetry and unitarity on a four-point function of stress tensors in 3d CFTs. For simplicity, we assume a parity symmetry, so our bounds apply universally to any unitary parity-preserving local 3d CFT. We assume a parity symmetry, so our bounds apply universally to any unitary parity-preserving local 3d CFT This birds-eye view of local CFTs with spacetime symmetry O(3, 2) is similar in spirit to the views of superconformal theories achieved in [20, 21, 26, 31]
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