Exploring the Connection Between the Higgs Field, Gravity, and Time

In summary, the proposed Higgs field is a mechanism which "decelerates" certain particles (whereas not interacting with others), thus creating mass as we know it, would it follow from this that the field is also, ultimately, the source of gravity? If so, there seems to be a connection between gravity and time (time understood here as temporality/duration) which would ultimately make the Higgs boson a "time particle".
  • #1
Max Faust
78
0
If the proposed Higgs field is a mechanism which "decelerates" certain particles (whereas not interacting with others), thus creating mass as we know it, would it follow from this that the field is also, ultimately, the source of gravity? If so, there seems to be a connection between gravity and time (time understood here as temporality/duration) which would ultimately make the Higgs boson a "time particle".

This idiosyncratic fixation has been circulating in my mind for some time now, and it would be nice to make it go somewhere else than the current "loop" which leads me nowhere.

Thanks.
 
Last edited:
Space news on Phys.org
  • #2
The Higgs field does give other particles mass through direct coupling. Saying it 'decelerates' them isn't really correct. While massive particles gravitate, thereby motivating your argument that the Higgs field may ultimately be the gravitational field. However, even massless particles gravitate (eg deflection of light by massive bodies). Also, Einstein's General Relativity, the well-tested and accepted modern theory of gravity requires that gravity be mediated by a spin 2 particle (the field must be a second-rank tensor). Meanwhile, the Higgs is a spin 0 particle (the field is a scalar), and so it does not possesses the necessary degrees of freedom to generate the gravitational interaction as we observe it.

I'm a little confused why you suggested that the Higgs would be a "time particle".
 
  • #3
bapowell said:
I'm a little confused why you suggested that the Higgs would be a "time particle".

Well, if I have understood this correctly, "time" as we know it doesn't really exist at the speed of light, or, in this context, "outside" of the Higgs field. I sort of associate time with gravity (as in either one is a consequence of the other, or perhaps even the same phenomenon) - but it's very vague and I may be wrong.
 
  • #4
OK. But what does the Higgs field have to do with the speed of light? Gravity is not separate from time. The gravitational force is a manifestation of the geometry of space-time -- the 4-dimensional fabric that makes up our universe.
 
  • #5
If I understand this correctly, the Higgs field creates "cosmic treacle" by converting the "pure" energy of fast particles into mass by slowing them down. In doing so, the field not only creates the mass which we associate with gravity but also the temporal conditions we associate with existence. Consequently, I get the feeling that time and gravity may be two sides to the same coin.

Edited to add: I must shamefully admit that I have been corruped by the speculations of Ed Witten, so I don't really see the Minkowski-defined universe of General Relativity any longer, but rather a terrible kind of brane-based infinity wherein time and gravity are inseparable properties of mass.
 
  • #6
Max Faust said:
If I understand this correctly, the Higgs field creates "cosmic treacle" by converting the "pure" energy of fast particles into mass by slowing them down. In doing so, the field not only creates the mass which we associate with gravity but also the temporal conditions we associate with existence. Consequently, I get the feeling that time and gravity may be two sides to the same coin.
Aaahhh...OK. Now I understand you better. That is a very interesting thought Max. A couple caveats, however. The Higgs field is not the only way that particle can obtain mass. For example, QCD effects (from quark condensates e.g.) can spontaneously break symmetries and generate masses. So, it's not necessary that one single entity (ie the Higgs field) generate all the mass in the universe. Also, as I mentioned earlier, gravity is not partial to mass, but energy as well. Even if you had a universe consisting only of photons -- no massive particles anywhere -- you'd have gravity. So your conjectured connection between the "agent of mass endowment" and gravity might not be so clear.

But, your connection to time is intriguing, and I'd like to think more about that.
 
  • #7
bapowell said:
Even if you had a universe consisting only of photons -- no massive particles anywhere -- you'd have gravity.

OK, see now that only makes it worse. I don't understand the nature of gravity. Is it some kind of "memory" system then? As in, as the joke goes, how a pickled herring is dreaming of the ocean? If so, then gravity ought to be an attractor "backwards" - to the singularity which supposedly existed "before" the big bang, whereas "time" is an expansive (entropic) property of the same energy.
 
  • #8
I think it an intriguing idea Max. It feels apt. I'm thinking of the fact that time apparently stops at the event horizon of a black hole, and the intimate relationships between gravity, constant acceleration and the square of time.
 
  • #9
marcos54 said:
I'm thinking of the fact that time apparently stops at the event horizon of a black hole
It only asymptotically dilates to infinity for distant observers. Those of us unlucky enough to fall into a black hole feel no such effect on the passage of time.
 
  • #10
Max Faust said:
OK, see now that only makes it worse. I don't understand the nature of gravity. Is it some kind of "memory" system then? As in, as the joke goes, how a pickled herring is dreaming of the ocean? If so, then gravity ought to be an attractor "backwards" - to the singularity which supposedly existed "before" the big bang, whereas "time" is an expansive (entropic) property of the same energy.

Max, I don't think this is a problem with your understanding, it's a problem with ALL of our understanding. The nature of mass, and Quantum Gravity is THE mystery right now, with the origin and nature of time being imponderable outside of a mathematical or experimental framework.

@bapowell: Good thing we're subatomic sphaghetti by then, eh? :biggrin:
 
  • #11
bapowell said:
Those of us unlucky enough to fall into a black hole feel no such effect on the passage of time.

On a related note... If you happened to - hypothetically - be inside of the event horizon, but not in contact with the singularity (not "spaghettified"), and traveling towards "the outside", would it appear to you as "space itself" stretching out? (Since you obviously can never reach, much less pass it.)
 
  • #12
Max Faust said:
On a related note... If you happened to - hypothetically - be inside of the event horizon, but not in contact with the singularity (not "spaghettified"), and traveling towards "the outside", would it appear to you as "space itself" stretching out? (Since you obviously can never reach, much less pass it.)

The honest answer to anything past the EH is: "who knows?!"
 
  • #13
travelling towards "the outside", would it appear to you as "space itself" stretching out? (Since you obviously can never reach, much less pass it.)
You simply can't travel to the outside. No matter what you do, you're going down the r-coordinate with the same certainty as you climb up the t-coordinate outside the EH.
 
  • #14
Ich said:
You simply can't travel to the outside. No matter what you do, you're going down the r-coordinate with the same certainty as you climb up the t-coordinate outside the EH.

On the bright side, your information might be "smeared" across the EH! Not the happiest thought, but it beats the Information Paradox. Still... ouch!
 
  • #15
Ich said:
You simply can't travel to the outside. No matter what you do, you're going down the r-coordinate with the same certainty as you climb up the t-coordinate outside the EH.

Are those two statements the same? "You can't travel to the outside" (which I think I already understood, but maybe not) and " ... you're going down the r-coordinate with same certainty ..."

If I were falling into a really large BH, I could cross the event horizon without hardly noticing, or so I thought. If that were the case, then once inside I imagined the gradients would be small enough that I could putter around in my little rocket as much as I wanted, I just could never get outside (as you say). But would I have to move inexorably toward the center? If I am outside the EH, I can slow the march along the t axis by moving faster along r. If I had infinite energy, I could stop my motion completely along t. Are the conditions inside EH just the reverse (substitute r for t) or is this whole thing just an absurd conjecture based on unknown (to me anyway) physics?
 
  • #16
It's not a matter of gradients. Inside the black hole horizon, time-like vectors become space-like, and space-like vectors become time-like. You can no easier move spatially away from the singularity as you can move backwards in time outside the even horizon. You inevitably move towards the singularity.
 
  • #17
bapowell said:
Inside the black hole horizon, time-like vectors become space-like, and space-like vectors become time-like.

That's interesting. Does it support my idea that time and gravity is essentially the same force?
 
  • #18
Max Faust said:
That's interesting. Does it support my idea that time and gravity is essentially the same force?

Given that gravity is not a force, and time is not a force... no.
 
  • #19
Force schmorce... what I mean is that they seem to be *interconnected* in a "drag" sort of way. But I may of course be wrong. I don't do mathematics, only "imagination".
 
  • #20
Max Faust said:
Force schmorce... what I mean is that they seem to be *interconnected* in a "drag" sort of way. But I may of course be wrong. I don't do mathematics, only "imagination".

Ok, but this is Physics Forums, not "Imagination Forums". I'm not objecting to the notion of wild speculation, just to that here in the context of pushing a personal theory with no reality in either math OR physics. Saying you could be wrong doesn't immunize you from being blatantly wrong, and ending with "imagination" probably belongs in the lounge.

EDIT: As for "interconnected"... yeah... spacetime, of which gravity is a geometrical feature. That's pretty basic, and saying that either is a force isn't imagination, it's just fantasy.
 
  • #21
Max Faust said:
Force schmorce... what I mean is that they seem to be *interconnected* in a "drag" sort of way. But I may of course be wrong. I don't do mathematics, only "imagination".

Clearly gravitiy and time are interconnected Max, but nobody is going to know exactly what you mean by 'a drag sort of way'. If you want some more insight, you should google some of the materials on general relativity. There are some very basic models for how gravitiy and time interact. And there's some history on who's the first group to actually measure (and confirm) the GR prediction of that interdependence.

If you doubt the predictions of GR, you aren't alone. Even the designers of the GPS system had switches in the satellites to turn off the GR compenation of their internal clocks. In the end, they had to leave them on. Einstein would have smiled (I think).

Sorry if this is askew of the Higg's Field ... I will bow out now.
 
  • #22
pixchips said:
Clearly gravitiy and time are interconnected Max, but nobody is going to know exactly what you mean by 'a drag sort of way'. If you want some more insight, you should google some of the materials on general relativity. There are some very basic models for how gravitiy and time interact. And there's some history on who's the first group to actually measure (and confirm) the GR prediction of that interdependence.

If you doubt the predictions of GR, you aren't alone. Even the designers of the GPS system had switches in the satellites to turn off the GR compenation of their internal clocks. In the end, they had to leave them on. Einstein would have smiled (I think).

Sorry if this is askew of the Higg's Field ... I will bow out now.

I think that was highly relevent; thanks Pixchips.
 
  • #23
pixchips said:
nobody is going to know exactly what you mean

I understand.

I shall do some more homework before I return to the matter.
 

1. What is the Higgs field and how does it relate to gravity and time?

The Higgs field is a fundamental concept in particle physics that is responsible for giving particles their mass. It is theorized to be a field that permeates all of space and interacts with particles, giving them their characteristic mass. The Higgs field is also thought to be connected to the phenomenon of gravity, as it is believed to interact with the gravitational field in a similar way to how it interacts with particles. As for its connection to time, the Higgs field is believed to play a role in the "tick rate" of time, affecting the rate at which time passes in different regions of space.

2. How was the existence of the Higgs field discovered?

The existence of the Higgs field was first proposed in the 1960s as part of the Standard Model of particle physics. It was not until 2012, however, that it was confirmed to exist through experiments at the Large Hadron Collider (LHC) at CERN. These experiments involved colliding particles at high energies and analyzing the resulting data for the presence of a particle called the Higgs boson, which is a manifestation of the Higgs field.

3. What is the role of the Higgs field in the concept of gravity?

The Higgs field is thought to interact with the gravitational field, giving particles their mass and therefore affecting their behavior in a gravitational field. This interaction is believed to be responsible for the force of gravity, as the particles that make up the gravitational field are also affected by the Higgs field. This means that the Higgs field plays a crucial role in our understanding of the force of gravity and how it operates in the universe.

4. How does the Higgs field relate to the concept of time dilation?

Time dilation is a consequence of Einstein's theory of relativity, which states that time can appear to pass at different rates for different observers depending on their relative velocities. The Higgs field is thought to play a role in this phenomenon by affecting the rate at which time passes in different regions of space. This means that the Higgs field is connected to the concept of time dilation and may help explain why time appears to pass at different rates in different parts of the universe.

5. Are there any current or potential applications of our understanding of the Higgs field, gravity, and time?

While our understanding of the Higgs field, gravity, and time is still evolving, there are already some potential applications that could arise from this knowledge. For example, a deeper understanding of gravity and the Higgs field could lead to advancements in space travel and exploration, as well as the development of new technologies. Additionally, the study of time and its connection to the Higgs field could have implications for fields such as cosmology and the search for a unified theory of physics.

Similar threads

  • High Energy, Nuclear, Particle Physics
Replies
8
Views
1K
Replies
6
Views
1K
  • Beyond the Standard Models
Replies
0
Views
898
Replies
4
Views
1K
  • Beyond the Standard Models
Replies
5
Views
3K
  • High Energy, Nuclear, Particle Physics
Replies
3
Views
2K
Replies
28
Views
1K
  • High Energy, Nuclear, Particle Physics
Replies
5
Views
2K
  • Beyond the Standard Models
Replies
9
Views
3K
  • Beyond the Standard Models
Replies
31
Views
4K
Back
Top