Misconceptions about Virtual Particles - Comments

In summary, the Casimir force is a force between two pieces of metal or other material that is caused by the Casimir effect. It is explained correctly as a van der Waals force - the same force that holds an argon cluster together. Van der Waals forces are residual forces due to partial cancellation of the electromagnetic quantum field of the nuclei and elecrons making up the surfaces.
  • #1
A. Neumaier
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A. Neumaier submitted a new PF Insights post

Misconceptions about Virtual Particles

virtualparticlesmyths.png


Continue reading the Original PF Insights Post.
 
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Just in case you read the version from 40 minutes ago - it was by mistake an old one. I just uploaded the correct version - it is much more informative. I am now working on a third post called ''The virtual reality of particles" - which will be the most entertaining one of the trilogy - science fiction pure!
 
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  • #3
Interesting; I will have to read this in greater depth when I get home. One of the ideas floating around in my head is about phenomena where a helpful or heuristic description becomes mis-interpreted as the actual mechanism of a phenomenon. These including vacuum fluctuations for the Casimir effect, virtual particles for Hawking radiation, etc.
 
  • #4
Hi Arnold:

Would you please explain any misconceptions related to Hawking radiation and virtual particles? As I recall, it was in the 1970s
when I attended a presentation at MIT by Hawking describing his concept of black hole radiation based on the creation of particle pairs which due to great tidal forces of the black hole would separate, one particle falling towards the black hole, and the other escaping and somehow becoming transformed by this into a real particle.

Regards,
Buzz
 
  • #5
Buzz Bloom said:
misconceptions related to Hawking radiation and virtual particles?
Nothing virtual happens. The dry facts are that two real particles are created from gravitational energy (from two gravitons or from an external gravitational field), not from the vacuum. One particle escapes, the other is absorbed. A valid description is given on p.645 of the book
B.W. Carroll and D.A. Ostlie, An Introduction to Modern Astrophysics, 2nd. ed., Addison Wesley 2007.

A corresponding animated (hence much more impressive) virtual ghost story for the general public - with all the common misconceptions characterizing these - can be found on Steve Carlip's site. Note that he warns his readers: ''Be warned - the explanations here are, for the most part, drastic oversimplifications, and shouldn't be taken too literally.'' Those who copy from him (or similar sources with similar caveats) usually take the fiction painted for scientific fact. But just because the fiction stems from a well-known scientist, it doesn't have to be science!
 
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  • #6
Buzz Bloom said:
As I recall, it was in the 1970s
when I attended a presentation at MIT by Hawking describing his concept of black hole radiation based on the creation of particle pairs which due to great tidal forces of the black hole would separate, one particle falling towards the black hole, and the other escaping and somehow becoming transformed by this into a real particle.
Take a look at page 4 of http://www.itp.uni-hannover.de/~giulini/papers/BlackHoleSeminar/Hawking_CMP_1975.pdf; what you heard was the "heuristic" explanation for non-specialists although the rest of the paper will give you the whole story. Also try this link: http://math.ucr.edu/home/baez/physics/Relativity/BlackHoles/hawking.html
 
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  • #7
"They cannot be said to exist in space and time, have no position, no meaningful probabilities to be created or destroyed anywhere, no life-time, cannot cause anything, interact with anything or affect anything."

If this is the case, then can you explain what is pushing two highly polished surfaces/mirrors together in a vacuum(absent of gravity i assume as well) with a force which increases greatly when reducing the distance?

From wikipedia

The Casimir force per unit area
7ed806369440de6ab758d0e7f21fc293.png
for idealized, perfectly conducting plates with vacuum between them is

aaed68a46efadd36a85b5265890fe2a6.png


where

9dfd055ef1683b053f1b5bf9ed6dbbb4.png
(hbar, ħ) is the reduced Planck constant,
4a8a08f09d37b73795649038408b5f33.png
is the speed of light,
0cc175b9c0f1b6a831c399e269772661.png
is the distance between the two plates
 
  • #8
Jeronimus said:
If this is the case, then can you explain what is pushing two highly polished surfaces/mirrors together in a vacuum(absent of gravity i assume as well) with a force which increases greatly when reducing the distance?
The pushing is done by the Casimir force caused by the two surfaces - not by the space in between. Note that this space between the surfaces - what is informally called a vacuum - is not truly empty, it is still filled with the quantum fields emanating from the surfaces. Just like the space between the sun and the planets is not empty but filled with the gravitational field.

The Casimir force is explained correctly as a van der Waals force - the same force that holds an argon cluster together. Van der Waals forces are residual forces due to partial cancellation of the electromagnetic quantum field of the nuclei and elecrons making up the surfaces.
The wikipedia article on the Casimir effect acknowledges this:
wikipedia said:
Casimir's original goal was to compute the van der Waals force between polarizable molecules" of the conductive plates. Thus it can be interpreted without any reference to the zero-point energy (vacuum energy) of quantum fields.[5]
[5] is a famous paper by Jaffe 2005 where the physically sound explanation is discussed in detail without any virtual magic.
Jeronimus said:
From wikipedia
Unfortunately the policy of wikipedia that in case of controversy all points of view must be discussed in a neutral way implies that wikipedia necessarily spreads an amount of nonsense proportional to that held in the general public. What counts in the eyes of wikipedia is not the correctness of a view but whether the view exists and how frequent it is.
wikipedia said:
People of all ages, cultures and backgrounds can add or edit article prose, references, images and other media here. What is contributed is more important than the expertise or qualifications of the contributor. What will remain depends upon whether the content is free of copyright restrictions and contentious material about living people, and whether it fits within Wikipedia's policies, including being verifiable against a published reliable source, thereby excluding editors' opinions and beliefs and unreviewed research. [wikipedia source]
wikipedia said:
All encyclopedic content on Wikipedia must be written from a neutral point of view (NPOV), which means representing fairly, proportionately, and, as far as possible, without editorial bias, all of the significant views that have been published by reliable sources on a topic. [wikipedia source]
There is no clear definition of what a ''reliable source'' is, but sources from the popular science literature (which are full of misinformation about virtual particles) are definitely not excluded.
 
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  • #9
A. Neumaier said:
The pushing is done by the Casimir force caused by the two surfaces - not by the space in between. Note that this space between the surfaces - what is informally called a vacuum - is not truly empty, it is still filled with the quantum fields emanating from the surfaces. Just like the space between the sun and the planets is not empty but filled with the gravitational field.

As far as i understand it, if virtual particles have an effect on the two surfaces, pushing them together, it is because of the space outside the surfaces, not inside. More virtual particles hitting the outer side of the surfaces than the inside, the closer the surfaces are moved together.

As for a vacuum not being truly empty, i guess here is where everyone agrees, except according to you, if i understand you properly, the vacuum IS truly empty when there are no objects around. According to you, no virtual particles pop in and out of existence for a short period of time supposedly allowed by the
Heisenberg uncertainty principle as some claim.

But if all above was the case, which experiment would you propose or know of, that would show or shows that there aren't any virtual particles popping in and out of existence for a short period of time with real effects on other matter because if there were, A, B, C etc should be the case if they existed, but is not?

In other words. What should be the case IF they existed and had real effects on other matter, but is not the case, because those virtual particles do not exist or if they do, have no effect whatsoever.
 
  • #10
Jeronimus said:
if virtual particles have an effect
They cannot have any causal effect since they don't exist in a spatial-temporal sense, as explained in the Insight article. They affect something only in the same platonic sense as each contribution ##x^n/n!## in the power series expansion of ##e^x## has an effect on the value of the exponential function at ##x##, although the value of the latter is independent of the way it is computed. (No sensible computer program computes ##e^{-10}## from the power series.)
Jeronimus said:
What should be the case but is not, because those virtual particles do not exist or if they do, have no effect whatsoever.
As the paper by Jaffe shows, the Casimir effect is independent of the notion of a virtual particle. Thus nothing changes whether you add or don't add empty talk about the latter.
Jeronimus said:
the vacuum IS truly empty when there are no objects around. According to you, no virtual particles pop in and out of existence for a short period of time supposedly allowed by the Heisenberg uncertainty principle as some claim.
Indeed. The latter is only what popular science says.

The former is what quantum field theory says (and hence what I say): The vacuum is the state containing exactly zero particles anywhere in space and at all times. Since it is an eigenstate of the number operator, there is no uncertainty at all about this.

Read the Insight article and the earlier one on the same subject, and you'll understand the reasons for the difference in the points of view. If you then still take sides with the popular view, you'll have understood why popular science is much more popular than real science - no amount of explanation can help.
 
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  • #12
Here is one more article which seems to undermine the theory of vacuum fluctuations/virtual particles having a real effect.

http://resonance.is/quantum-vacuum-fluctuations-harnessed-in-a-propellant-less-engine-tested-by-nasa/ [Broken]

“This paper describes the test campaigns designed to investigate and demonstrate viability of using classical magnetoplasmadynamics to obtain a propulsive momentum transfer via the quantum vacuum virtual plasma. This paper will not address the physics of the quantum vacuum plasma thruster (QVPT)…”

-Anomalous[/PLAIN] [Broken] Thrust Production from an RF Test Device Measured on a
Low-Thrust Torsion Pendulum.
2014.More recently, on April 5, 2015, NASA Eagleworks reported a new computational simulation that models the EmDrive’s thrust as a three-dimensional magnetohydrodynamic flow of electron-positron pairs of the quantum vacuum – the polarizable structure of the vacuum.

http://resonance.is/wp-content/uploads/2015/06/thruster.jpg [Broken]

In effect, the NASA team believes that the engine produces thrust via a momentum transfer with polarizable structure of the quantum vacuum. The central idea is that space is not empty, it is filled with energetic oscillations and as well, means that there is no truly isolated system, and hence no violation of the conservation of momentum if an equal force is being transferred to the quantum vacuum opposite to the forward thrust of the engine.

It is a good thing to have skeptics like OP not jumping too quickly onto conclusions but i believe that it is also a good thing to not dismiss any theory unless you can falsify it by an experiment.

If QFT doesn't allow any vacuum fluctuations/virtual particles(or virtual particle fields to go with QFT) popping in and out of existence in space out of seemingly nowhere, hence as OP stated, the vacuum is REALLY completely empty when there are no objects around, then this is fundamentally different from the theory which assumes virtual particles(with real effects) popping in and out of existence at all times even when nothing is around.
Then an experiment has to be proposed to settle this. Falsify one or the other theory.
 
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  • #13
Jeronimus said:
Here is one more article which seems to undermine the theory of vacuum fluctuations/virtual particles having a real effect.
This is a typical popular science article (count the ratio of formulas to text to get a first idea about this), and fits perfectly what I am discussing in the Insight article.
Jeronimus said:
it is also a good thing to not dismiss any theory unless you can falsify it by an experiment.
One cannot falsify unscientific stuff - precisely this makes it unscientific, and is sufficient ground to dismiss it.

Since virtual particles are objects in diagrams drawn on paper (or other drawing media) without any state that would give them properties in space and time, one cannot do any experiments to test their properties.
 
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  • #14
A. Neumaier said:
The Casimir force is explained correctly as a van der Waals force - the same force that holds an argon cluster together. Van der Waals forces are residual forces due to partial cancellation of the electromagnetic quantum field of the nuclei and elecrons making up the surfaces.

:smile::smile::smile::smile::smile::smile::smile:

Thanks
Bill
 
  • #15
A. Neumaier said:
Since virtual particles are objects in diagrams drawn on paper without any state that would give them properties in space and time, one cannot do any experiments to test their properties.

Well, sure, if you define virtual particles to have no state or properties, of course you can not test for them. But that is certainly not the theory you are supposed to falsify and test for.

Obviously, the theory in which virtual particles are responsible for pushing two highly polished conducting plates together in a vacuum, is based on virtual particles which do have properties and affect "stuff". Hawkins radiation is supposed to be 1 virtual particle falling into the black hole while the other is accelerated away of it, becoming a "real" particle.
Is Hawkins just a pop scientist?

Now maybe he is, but your reply to my post seemed rather unscientific in my opinion. You simply defined virtual particles to have no properties and therefore we cannot test for them.
That would be similar to saying "Your theory about quarks is wrong, because in my theory, protons and neutrons are indivisible, therefore quarks cannot exist and one cannot test for them"
 
  • #16
Jeronimus said:
Hawkins radiation is supposed to be 1 virtual particle falling into the black hole while the other is accelerated away of it, becoming a "real" particle.
Is Hawkins just a pop scientist?
"Hawking" not "Hawkins". No, he is not a pop scientist, but you are mistaken about the relationship between virtual particles and Hawking radiation. It's a very common misunderstanding (and one that Hawking himself is partly responsible for), but it's a misunderstanding. Take a look at post #6 of this thread for more.

Your misunderstanding about the relationship between virtual particles and Casimir forces is similar; the description of the force as arising from virtual particle interactions is just a heuristic.
 
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  • #17
Jeronimus said:
Well, sure, if you define virtual particles to have no state or properties, of course you can not test for them. But that is certainly not the theory you are supposed to falsify and test for.

Obviously, the theory in which virtual particles are responsible for pushing two highly polished conducting plates together in a vacuum, is based on virtual particles which do have properties and affect "stuff". Hawkins radiation is supposed to be 1 virtual particle falling into the black hole while the other is accelerated away of it, becoming a "real" particle.
Is Hawkins just a pop scientist?

Now maybe he is, but your reply to my post seemed rather unscientific in my opinion. You simply defined virtual particles to have no properties and therefore we cannot test for them.
That would be similar to saying "Your theory about quarks is wrong, because in my theory, protons and neutrons are indivisible, therefore quarks cannot exist and one cannot test for them"

I don't think that analogy quite works. Your reasoning seems to be:
  1. Somebody came up with a theory of virtual particles.
  2. According to that theory, it's not possible to observe virtual particles.
  3. But the theory might be wrong, or incomplete, so maybe it actually is possible to observe virtual particles.
But there is no theory of virtual particles that can be right or wrong. A virtual particle is a calculational tool used to solve problems in quantum field theory. It isn't a distinct theory. It's an artifact of how people solve problems. It's hard for me to come up with a really good analogy, but here's my feeble attempt: You know how some people use "tic marks" to keep track of counting items. (I assume people still do that.) You're counting dandelions in your yard, and every time you find a new one, you make a vertical slash on your piece of paper, and every fifth slash you make is diagonal to mark a completed group of five. I don't think it would make much sense for you to say: "Okay, your theory says that there is one diagonal slash every five marks. But maybe your theory is wrong---maybe every 6th slash is diagonal, or every 4th slash." No, you're not going to discover that your slash convention is wrong. It's just a convention, it's not an empirical theory.
 
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  • #18
Jeronimus said:
Well, sure, if you define virtual particles to have no state or properties,

By definition virtual particles are the pictorial representation of terms in something called a Dyson series:
https://en.wikipedia.org/wiki/Dyson_series

This is what they are. They are not real, they do not cause anything. Statements otherwise are either populist half truths or professionals being loose.

Jeronimus said:
Obviously, the theory in which virtual particles are responsible for pushing two highly polished conducting plates together in a vacuum,

There is no such theory.

I will repeat it again. Statements otherwise are NOT correct. There have been many threads on this forum explaining it as well as insight articles (not just professor Neumaier's) eg:
https://www.physicsforums.com/insights/struggles-continuum-part-5/
'Each of these diagrams is actually a notation for an integral! There are systematic rules for writing down the integral starting from the Feynman diagram. To do this, we first label each edge of the Feynman diagram with an energy-momentum, a variable. The integrand, which we shall not describe here, is a function of all these energy-momenta. In carrying out the integral, the energy-momenta of the external edges are held fixed, since these correspond to the experimentally observed particles coming in and going out. We integrate over the energy-momenta of the internal edges, which correspond to virtual particles, while requiring that energy-momentum is conserved at each vertex.'

You have two choices - you can accept half truths from sources that are being loose to convey difficult concepts to the lay reader, or you can believe what the numerous professors of physics and mathematics on this site will tell you (I am not one but have studied QFT and can assure you what they say is true) - virtual particles are simply the name for mathematical objects - they are not particles - they would have been better called Jaberwocky's but since they are called virtual particles we are stuck with a great deal of populist confusion. They do not cause anything. Of course you are free to choose whatever you like, but why you would choose popularisations over experts not watering it down for a lay audience beats me.

Even better you can actually study it
https://www.amazon.com/dp/019969933X/?tag=pfamazon01-20

Thanks
Bill
 
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  • #19
Jeronimus said:
Is Hawkins just a pop scientist?
No, Hawking is doing both science and trying to explain science to laymen. If you check his publications, you won't find any "virtual particle is falling into a black hole", because there is no such thing. You will find calculations that do not involve virtual particles at all. But those calculations are impossible to describe to laymen accurately, so the description with the virtual particles was invented. It is not true, but it sounds nice - if you don't understand the actual physics.
 
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  • #20
There are such things as real particles, right? And there was a time before there were these real particles, during inflation, for example, right? It does seem that real particles do pop into existence from the vacuum when acceleration is involved such as in Hawking radiation, or the Unruh effect, or during reheating after inflation. If the vacuum does not consist of virtual particles, then how did these real particles come into being from the vacuum during these effects that I mentioned?
 
  • #21
friend said:
There are such things as real particles, right? And there was a time before there were these real particles, during inflation, for example, right? It does seem that real particles do pop into existence from the vacuum when acceleration is involved such as in Hawking radiation, or the Unruh effect, or during reheating after inflation. If the vacuum does not consist of virtual particles, then how did these real particles come into being from the vacuum during these effects that I mentioned?

Well, the view of quantum field theory is that the fundamental property is the field (of various types), which exists through all of space. For example, the electromagnetic field. These fields can have fluctuations or waves through them, which propagate according to some wave equation. But these are quantum fields, not classical fields, so these fluctuations are quantized, in the same way that the energy for a harmonic oscillator is quantized. Perturbations in the fields due to inflation or whatever causes fluctuations, and these fluctuations manifest themselves as particles. It's possible that a description in terms of virtual particles acquiring enough energy to become real particles might be a useful heuristic, but it's not fundamentally what's going on. The field-theoretic view says that even in vacuum, these fields are present, it's just that vacuum is the lowest energy state of these fields.
 
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  • #22
friend said:
There are such things as real particles, right? And there was a time before there were these real particles, during inflation, for example, right? It does seem that real particles do pop into existence from the vacuum when acceleration is involved such as in Hawking radiation, or the Unruh effect, or during reheating after inflation. If the vacuum does not consist of virtual particles, then how did these real particles come into being from the vacuum during these effects that I mentioned?
Particles are created from energy through the process of pair production (Google for it) - this has nothing to do with virtual particles.
 
  • #23
friend said:
If the vacuum does not consist of virtual particles, then how did these real particles come into being from the vacuum during these effects that I mentioned?
In every treatment of quantum field theory, the vacuum is defined as the eigenstate of all number operators with corresponding eigenvalue zero. This implies that everywhere and at any time the vacuum contains exactly zero particles (in any interpretation of quantum mechanics), without the slightest uncertainty.

The early universe never has been a vacuum but initially a quantum field state with extremely high energy density and hence extremely high temperature. As the system cools down, real particles and ultimately stars appear roughly in the same way as rain drops appear when a cloud cools down. This has nothing to do with virtual particles (or with virtual raindrops popping in and out of existence in a cloud).
 
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  • #24
Isn't it true that virtual particles are just another name for quantum fluctuations from which these real particle come when there's acceleration? It seems I'm always hearing one term being used synonymously for the other. And it seems we aren't able to actually measure the quantum fields but only the particles they produce, right?
 
  • #25
friend said:
Isn't it true that virtual particles are just another name for quantum fluctuations from which these real particle come when there's acceleration?
This is not true, and I don't see where you would get such a misconception from. This discussion has nothing to do with accelerations.
friend said:
And it seems we aren't able to actually measure the quantum fields but only the particles they produce, right?
You can measure an electric field, for example, without problems.
 
  • #26
mfb said:
This is not true, and I don't see where you would get such a misconception from. This discussion has nothing to do with accelerations.

I don't think his comments were completely out of the blue. According to the Wikipedia article on "Quantum fluctuation":

In quantum physics, a quantum fluctuation (or quantum vacuum fluctuation or vacuum fluctuation) is the temporary change in the amount of energy in a point in space,[1] as explained in Werner Heisenberg's uncertainty principle.

According to one formulation of the principle, energy and time can be related by the relation[2]

cc48638f034ec865286a10d460bac090.png

This allows the creation of particle-antiparticle pairs of virtual particles. The effects of these particles are measurable, for example, in the effective charge of the electron, different from its "naked" charge.​

https://en.wikipedia.org/wiki/Quantum_fluctuation

So it's not that mysterious why someone might think that there is a connection between virtual particles and quantum fluctuations: there are articles saying that there is such a connection.

As for the connection with acceleration, there is Unruh radiation, which is similar to Hawking radiation, which popularizers (including Hawking) connect with virtual particles.

I'm not endorsing these uses of "virtual particles", I'm just saying that it's not surprising that laymen believe these things about them.
 
  • #27
stevendaryl said:
I don't think his comments were completely out of the blue.
Yes, popular science is full of this, respected physicists promote these fantasies in their popular science books, and wikipedia's neutrality policy forces the article writers to represent the popular science fantasies as facts. Therefore they are widely believed and hard to eradicate.

Neverteless, as my two insight articles explain in much detial, these popular science fantasies have no basis in physics, only in informal physics talk for the mathophobic.
 
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  • #28
stevendaryl said:
Well, the view of quantum field theory is that the fundamental property is the field (of various types), which exists through all of space. For example, the electromagnetic field. These fields can have fluctuations or waves through them, which propagate according to some wave equation. But these are quantum fields, not classical fields, so these fluctuations are quantized, in the same way that the energy for a harmonic oscillator is quantized. Perturbations in the fields due to inflation or whatever causes fluctuations, and these fluctuations manifest themselves as particles. It's possible that a description in terms of virtual particles acquiring enough energy to become real particles might be a useful heuristic, but it's not fundamentally what's going on. The field-theoretic view says that even in vacuum, these fields are present, it's just that vacuum is the lowest energy state of these fields.
Even the buckyball field? I doubt it.
 
  • #29
Jilang said:
Even the buckyball field? I doubt it.
Its density is zero everywhere when no buckyballs are around. In this sense the field is always present.

it is like the number of people in a room, which is always defined even if no one is there. The number is then simply zero.

Fields ##\phi(x)## are like the notion ''number of people in room ##x##'', and the states assign (among others) to each ##x## a particular value like ''zero''. Thus fields are present everywhere but in the vacuum state their value is zero.
 
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  • #30
Thank you. It makes it a lot clearer. They are constructs.
 
  • #31
Jilang said:
They are constructs.
But (in principle) measurable constructs: One can check whether or not people are in the room, buckyballs are present, or the magnetic field is nonzero. Presence = being significantly nonzero.
 
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  • #32
I'm not sure I'm satisfied with these answers about pop science. You guys say:

Nugatory said:
the description of the force as arising from virtual particle interactions is just a heuristic.

But a "heuristic" is something like a crude calculation with inconsistent premises (like old quantum theory). Here it seems different, since there is no such crude calculation with virtual pairs, but instead something like a mythology, if I assume your view is correct. And:

mfb said:
You will find calculations that do not involve virtual particles at all. But those calculations are impossible to describe to laymen accurately, so the description with the virtual particles was invented. It is not true, but it sounds nice - if you don't understand the actual physics.

But it seems actually possible, simply by saying:

A. Neumaier said:
Nothing virtual happens. The dry facts are that two real particles are created from gravitational energy (from two gravitons or from an external gravitational field), not from the vacuum. One particle escapes, the other is absorbed.

Then why don't popularizers (extremely respected scientists) just say this? Again, assuming your view is correct, it seems like they made some story up for no reason.
 
  • #33
A. Neumaier said:
Nothing virtual happens.
Then what is the cosmological constant if not the vacuum energy that is doing something - accelerating the universe? This is not the result of real particle interaction. So there must be something going on in the world of the virtual that is having a real effect, right?
 
  • #34
friend said:
Then what is the cosmological constant if not the vacuum energy that is doing something - accelerating the universe?
Maybe it is just a term in general relativity. This is by far the easiest option.
Maybe it is some undiscovered field.
Maybe it is our poor understanding of quantum gravity. But even then it is not from virtual particles.How many scientists and posts do you need to tell you "virtual particles do not exist" until you stop asking the same questions in 100 different ways, while always getting the same answer? Do you really expect a different answer in post 101?
 
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  • #35
friend said:
There are such things as real particles, right?

Of course
friend said:
And there was a time before there were these real particles, during inflation, for example, right?

https://en.wikipedia.org/wiki/Inflaton

'Random quantum fluctuations triggered a phase transition whereby the inflaton field released its potential energy as matter and radiation as it settled to its lowest-energy state.'

This is similar to spontaneous emission - nothing to do with virtual particles
https://en.wikipedia.org/wiki/Spontaneous_emission

friend said:
It does seem that real particles do pop into existence from the vacuum when acceleration is involved

You have been told that's not what is going on. Yet you ignore it, simply say seem as if it makes it true, and continue on regardless.

Instead of arguing the point your time would be better spent studying the theory so you understand why you are mistaken.

Thanks
Bill
 
<h2>What are virtual particles?</h2><p>Virtual particles are theoretical particles that are thought to exist for a very short period of time in the quantum vacuum. They are not directly observable, but their effects can be seen in certain physical phenomena.</p><h2>Are virtual particles real?</h2><p>Virtual particles are considered to be real in the sense that they have measurable effects on the physical world. However, they do not have the same properties as regular particles and cannot be directly detected or observed.</p><h2>Do virtual particles violate the laws of conservation of energy?</h2><p>No, virtual particles do not violate the laws of conservation of energy. They are thought to borrow energy from the vacuum for a brief period of time before returning it, thus conserving overall energy.</p><h2>Can virtual particles be created or destroyed?</h2><p>Virtual particles cannot be created or destroyed in the traditional sense, as they are not physical particles with mass and energy. However, they can appear and disappear spontaneously in certain physical processes.</p><h2>Do virtual particles have any practical applications?</h2><p>Virtual particles do not have any direct practical applications, but they are important in understanding and predicting various physical phenomena, such as the Casimir effect and Hawking radiation.</p>

What are virtual particles?

Virtual particles are theoretical particles that are thought to exist for a very short period of time in the quantum vacuum. They are not directly observable, but their effects can be seen in certain physical phenomena.

Are virtual particles real?

Virtual particles are considered to be real in the sense that they have measurable effects on the physical world. However, they do not have the same properties as regular particles and cannot be directly detected or observed.

Do virtual particles violate the laws of conservation of energy?

No, virtual particles do not violate the laws of conservation of energy. They are thought to borrow energy from the vacuum for a brief period of time before returning it, thus conserving overall energy.

Can virtual particles be created or destroyed?

Virtual particles cannot be created or destroyed in the traditional sense, as they are not physical particles with mass and energy. However, they can appear and disappear spontaneously in certain physical processes.

Do virtual particles have any practical applications?

Virtual particles do not have any direct practical applications, but they are important in understanding and predicting various physical phenomena, such as the Casimir effect and Hawking radiation.

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