Space-time philosophy reconstructed via massive Nordström scalar gravities? Laws vs. geometry, conventionality, and underdetermination
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Change log
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Abstract
Klein-Gordon gravity, 1920s-30s particle physics, and 1890s Neumann-Seeliger
modified gravity suggest a "graviton mass term" algebraic in the potential.
Unlike Nordstr"om's "massless" theory, massive scalar gravity is invariant
under the Poincar'e group but not the 15-parameter conformal group. It thus
exhibits the whole Minkowski space-time structure, indirectly for volumes.
Massive scalar gravity is plausible as a field theory, but violates Einstein's
principles of general covariance, general relativity, equivalence, and Mach.
Geometry is a poor guide: matter sees a conformally flat metric due to
universal coupling, but gravity sees the rest of the flat metric (on long
distances) in the mass term. What is the true' geometry, in line with Poincar\'e's modal conventionality argument? Infinitely many theories exhibit this bimetric
geometry,' all with the total stress-energy's trace as source;
geometry does not explain the field equations. The irrelevance of the
Ehlers-Pirani-Schild construction to conventionalism is evident given
multi-geometry theories. As Seeliger envisaged, the smooth massless limit
yields underdetermination between massless and massive scalar gravities---an
unconceived alternative. One version easily could have been developed before
GR; it would have motivated thinking of Einstein's equations along the lines of
his newly reappreciated "physical strategy" and suggested a rivalry from
massive spin 2 for GR (massless spin 2, Pauli-Fierz 1939). The
Putnam-Gr"unbaum debate on conventionality is revisited given a broad modal
scope. Massive scalar gravity licenses a historically plausible rational
reconstruction of much of space-time philosophy in light of particle physics.
An appendix reconsiders the Malament-Weatherall-Manchak conformal restriction
of conventionality and constructs the `universal force' in the null cones.
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Journal ISSN
1879-2502