Undergrad Carlo Rovelli, loop quantum gravity and point particles

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SUMMARY

Carlo Rovelli's book, Reality Is Not What It Seems, introduces loop quantum gravity, positing that space is composed of discrete packets called nodes, which possess volume and shape. Unlike other quantum fields that consist of point particles, the gravitational field's quanta are extended, leading to discussions about the implications of a minimum length in nature. This challenges standard quantum field theory, which treats particles as dimensionless. Rovelli's framework suggests that particles are not pointlike, providing a potential resolution to ultraviolet divergences in traditional models.

PREREQUISITES
  • Understanding of loop quantum gravity concepts
  • Familiarity with quantum field theory
  • Knowledge of Dirac's general quantum equation
  • Basic grasp of Lorentz invariance and its implications
NEXT STEPS
  • Explore the implications of minimum length in quantum gravity theories
  • Study the differences between loop quantum gravity and standard quantum field theory
  • Investigate the role of nodes in Rovelli's model of spacetime
  • Read more about ultraviolet divergences and their resolutions in quantum theories
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Physicists, researchers in quantum gravity, and students of theoretical physics interested in the foundational aspects of spacetime and particle physics.

TheHeraclitus
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How are particles described in loop quantum gravity?
I am reading a popular-science book Reality Is Not What It Seems by Carlo Rovelli, one of the founders of loop quantum gravity.
He writes:
The nodes of the graph represent the discrete packets of volume and, as in the case of photons, can only have certain sizes, which can be computed using Dirac's general quantum equation. Every node n in the graph has its own volume vn: one of the numbers in the spectrum of the volume.
and
The nodes are the elementary quanta of which physical space is made. Every node of the graph is a "quantum particle of space".
and
the gravitational field is space. Space is no longer different from matter. It is one of the "material" components of the world, akin to the electromagnetic field. It is a real entity which undulates, fluctuates, bends and contorts.

So basically, space (spacetime) is just another quantum field like all the others, and the quanta of this field is the nod. Nods have volume, which means they must be extended in dimensions, they must have shape. But all quanta of the other fields, for example photon, electron, quark are described as point particles, they have no volume. It seems absurd to me that every quantum field has point particles except gravitational field which has extended particles.

Rovelli also claims there is minimum length in nature, but point particles would be smaller, they are dimensionless.

So, how does Rovelli and Loop quantum gravity deal with these particles?
 
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Particles are "pointlike" in standard quantum field theory in the sense that their wavelength can be arbitrarily small. But this is a problem of standard theory, because it leads to UV divergences. According to loop quantum gravity, particles are actually not "pointlike" in that sense, which is a sort of improvement over the standard theory. But note that it is a popular-level explanation, similar to the book you have been reading, so should be taken with a grain of salt.
 
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TheHeraclitus said:
Summary: How are particles described in loop quantum gravity?

I am reading a popular-science book Reality Is Not What It Seems by Carlo Rovelli, one of the founders of loop quantum gravity.
He writes:

and

andSo basically, space (spacetime) is just another quantum field like all the others, and the quanta of this field is the nod. Nods have volume, which means they must be extended in dimensions, they must have shape. But all quanta of the other fields, for example photon, electron, quark are described as point particles, they have no volume. It seems absurd to me that every quantum field has point particles except gravitational field which has extended particles.

Rovelli also claims there is minimum length in nature, but point particles would be smaller, they are dimensionless.

So, how does Rovelli and Loop quantum gravity deal with these particles?
One big difficulty with a node-like model of space-time is that this can give rise of Lorentz violations (i.e. deviations from special relativity) if taken too literally. But, this problem is not, in general, a problem with all models in which there is a minimum length that do not rigidly try to fit space-time into a fixed discrete network.
 
TheHeraclitus said:
So basically, space (spacetime) is just another quantum field like all the others
The other fields are defined at each point on spacetime. How can spacetime be a field defined on itself?

TheHeraclitus said:
But all quanta of the other fields, for example photon, electron, quark are described as point particles.
They aren't. Especially the photon! They are states of the relevant quantum field.
TheHeraclitus said:
It seems absurd to me that every quantum field has point particles except gravitational field which has extended particles.
Given it's not part of the theory it may well be absurd!
TheHeraclitus said:
So, how does Rovelli and Loop quantum gravity deal with these particles?
He doesn't have to, as point particles are not part of quantum field theory.
 
Last edited:

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