What is the "fabric" of spacetime if it is not a relational entity?

Question

This is an interdisciplinary (philosophical physics) question.

In Newton's absolute spacetime model, spacetime is described as a physical entity. However, in the relational spacetime model (supported by many including Plato, Aristotle, Descartes, Leibniz and even Einstein), spacetime is not a physical entity. It is just a mathematical tool.

Later, black holes were discovered. Black hole singularity is a hole in the fabric of spacetime. If there is no fabric, there can be no holes. This means that spacetime is a fabric - a real entity.

Moreover, space is expanding. If it is just a mathematical construct, how can space expand (there is evidence of expansion)? This also implies that spacetime must be a real entity.

If I remove all matter and energy in this universe and also the quantum fields, will there be a fabric/fluid of spacetime still left in the universe?

If so, what can be this fabric made of?

Answer 1

You are wrong to state that Einstein considered spacetime to be just a mathematical tool. For a good perspective on this, have a look at Minkowski's writings on the nature of spacetime, and Einstein's subsequent responses to him.

Spacetime is a physical entity with physical properties which may not make intuitive sense to us (and are intangible to our human senses) but which are real nonetheless. We can actually measure those properties (its capacity for conveying electric and magnetic fields, for example) and directly calculate from them the speed with which local changes in those fields will propagate through space and time (yielding the speed of light).

Spacetime is usually referred to by physicists as the vacuum and it has been known for decades that the vacuum is not empty of everything. It contains quantum fields whose values in "empty space" are not zero even at zero temperature, and if their presence is not taken into account then the predictions furnished by classical physics will be in error. Much has been written about the quantum vacuum and anyone desiring to explore what philosophical consequences its properties might have should read up on this topic.

A handy place to start is with Timothy Boyer's paper, The Classical Vacuum. From there, you'd move into a treatment of the quantum vacuum. The people on the Physics Stack Exchange can recommend to you some of the standard works on it.

Answer 2

Although Einstein entertained relational ideas in the early years under Mach's influence, he did not support a relational spacetime after developing general relativity. He believed that it requires spacetime to be a physical entity, albeit different from Newton's, and was even willing to call it "gravitational ether", see his address Ether and Relativity (1920). It was delivered well after his hole argument of 1916, which is considered a strong argument for relational spacetime, meaning that Einstein was not impressed by it.

Einstein identifies the physical nature of spacetime with the measurement relations expressed by the metric tensor and the ubiquitous gravitational field. However, it is a peculiar entity that lacks its own mechanical properties, and only manifests physically by setting up measurement standards and affecting ponderable bodies and other fields. So it is, perhaps, unsuitable to think of it as a "fabric" made of something, which we'd expect to have such properties of its own.

Considering that the invariant essence of a metric is its curvature, one can also say that Einstein's spacetime rather manifests by "curving" other fabrics, like mechanical and electromagnetic processes. Some authors even go as far as to say that it is "made of geometry", being an evolving Riemannian manifold. Here is Einstein in his own words:

"This space-time variability of the reciprocal relations of the standards of space and time, or, perhaps, the recognition of the fact that "empty space" in its physical relation is neither homogeneous nor isotropic, compelling us to describe its state by ten functions (the gravitation potentials g_mn), has, I think, finally disposed of the view that space is physically empty. But therewith the conception of the ether has again acquired an intelligible content although this content differs widely from that of the ether of the mechanical undulatory theory of light. The ether of the general theory of relativity is a medium which is itself devoid of all mechanical and kinematical qualities, but helps to determine mechanical (and electromagnetic) events.

[...] As to the part which the new ether is to play in the physics of the future we are not yet clear. We know that it determines the metrical relations in the space-time continuum, e.g. the configurative possibilities of solid bodies as well as the gravitational fields... There can be no space nor any part of space without gravitational potentials; for these confer upon space its metrical qualities, without which it cannot be imagined at all. The existence of the gravitational field is inseparably bound up with the existence of space. On the other hand a part of space may very well be imagined without an electromagnetic field...

[...] Recapitulating, we may say that according to the general theory of relativity space is endowed with physical qualities; in this sense, therefore, there exists an ether. According to the general theory of relativity space without ether is unthinkable; for in such space there not only would be no propagation of light, but also no possibility of existence for standards of space and time (measuring-rods and clocks), nor therefore any space-time intervals in the physical sense. But this ether may not be thought of as endowed with the quality characteristic of ponderable media, as consisting of parts which may be tracked through time. The idea of motion may not be applied to it."

Answer 3

If so, what can be this fabric made of?

Science today does not know. All we know is, even in its emptiest state, as an absolute vacuum, containing absolutely no physical particles, the vacuum seems to be filled with something that fluctuates constantly and creates stuff that pops into and out of existence.

What is behind this phenomenon? It's all speculation.

Answer 4

Re: Newton's absolute spacetime model and the fabric of spacetime

If you can join separate relativistic frames by knowledge or calculation, such as how GPS satellites can be synchronised, then in the larger scale you may have an absolute manifold of simultaneity which can progess temporally as Newtonian spacetime. The fault-lines happen at gravitational singularities where synchronisation would then seem to be impossible. Up to those asymptotic limits the fabric is fairly tangible — everyone being-in-their-worlds, now. But it must remain theoretical, since the principle of unobservability prevents confirmation beyond causal limits, i.e. connected by speed of light.

Answer 5

The fabric is made up of observations.

Now it may seem impossible for space to be observed everywhere, but you (like many in science) forget one important detail: GOD.

If YHVH/GOD is real, then everything is related to an observation ("and it was good"). This create a quantum entanglement you may call a fabric of spacetime, because it is remembered.