Affiliation:
1. Institute of Physics, University of Amsterdam
2. Heidelberg University
Abstract
We conjecture that, in a renormalizable effective quantum field
theory where the heaviest stable particle has mass
mm,
there are no bound states with radius below
1/m1/m
(Bound State Conjecture). We are motivated by the (scalar) Weak Gravity
Conjecture, which can be read as a statement forbidding certain bound
states. As we discuss, versions for uncharged particles and their
generalizations have shortcomings. This leads us to the suggestion that
one should only constrain rather than exclude bound objects. In the
gravitational case, the resulting conjecture takes the sharp form of
forbidding the adiabatic construction of black holes smaller than
1/m1/m.
But this minimal bound-state radius remains non-trivial as
M_\mathrm{P}\to \inftyMP→∞,
leading us to suspect a feature of QFT rather than a quantum gravity
constraint. We find support in a number of examples which we analyze at
a parametric level.
Funder
Deutsche Forschungsgemeinschaft
European Research Council
National Science Foundation
Subject
General Physics and Astronomy
Cited by
18 articles.
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