Nuclear Limits on Non-Minimally Coupled Gravity
Abstract
We explore alternate theories of gravity where the gravitational term in the Lagrangian R8π G is replaced by a function f1(R) and the matter Lagrangian is multiplied by a function f2(R). We argue that nuclear physics can provide strong experimental constraints on such theories. In particular using energy conditions on the pressure in the 4He nucleus, for f1(R)=R8π G and f2(R)=1+λ R, we find a limit of |λ| < 5× 10-12\, m2, more than thirty orders of magnitude stronger than the previous limit.
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