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-   -   If a photon had a mass, time travels would be possible (http://www.physicsforums.com/showthread.php?t=387039)

 jumpjack Mar16-10 03:49 AM

"If a photon had a mass, time travels would be possible"

Could it be true?
Why?

How does mass relate to time travel and/or time warp in relativity?

 Fredrik Mar16-10 04:02 AM

Re: "If a photon had a mass, time travels would be possible"

"if a photon had a mass" is like saying "if a weekend was in the middle of the week". If you're asking about a massive spin-1 particle, then no, the existence of such a particle wouldn't make time travel possible. It wouldn't have anything to do with time travel.

There's no short answer to your last question. I suggest the book "Black holes and time warps: Einstein's outrageous legacy", by Kip Thorne.

 jumpjack Mar16-10 04:48 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Fredrik (Post 2626612) "if a photon had a mass" is like saying "if a weekend was in the middle of the week".
Forget reality :biggrin:, I was just wondering about formulas.

Quote:
 If you're asking about a massive spin-1 particle, then no, the existence of such a particle wouldn't make time travel possible. It wouldn't have anything to do with time travel.
Particles with mass can't reach light speed due to needed amount of energy to bring them to that speed;
photons have no mass but already have light speed;
the more is the speed, the slower is the time.
Is then time not running for photons?
I remember this kind of connection between time and mass, raised during a lecture I heard time ago...

Quote:
I know.... :rolleyes:

 Fredrik Mar16-10 05:08 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by jumpjack (Post 2626648) Forget reality :biggrin:, I was just wondering about formulas.
I'm fine with unrealistic assumptions, like "if I just ate a million hamburgers", but not self-contradictory assumptions like "if I just ate myself". (That example works better in a language where "ate myself" doesn't sound autoerotic).

Quote:
 Quote by jumpjack (Post 2626648) Is then time not running for photons?
This question comes up almost every week. See this quote and the thread I linked to in there:

Quote:
 Quote by Fredrik (Post 2594188) Your concern about time at the speed of light is answered by the following, which I originally posted in another forum: The reason why we associate a specific inertial coordinate system with the motion of an inertial observer is that there's a clock synchronization procedure that makes that the natural choice. All the statements about Lorentz contracton, time dilation, etc., are consequences of that choice. The claim that massless particles experience no time comes from applying the usual time dilation formula for speed v and taking the limit v→c, but there's no reason why we should think of the result of that procedure as "a photon's point of view". There is however a good reason not to: The clock synchronization procedure doesn't work for massless particles. See my posts in this thread (at Physics Forums) for more about this.

 jumpjack Mar16-10 05:14 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Fredrik (Post 2626671) This question comes up almost every week.
:biggrin:

 hamster143 Mar16-10 07:08 AM

Re: "If a photon had a mass, time travels would be possible"

The EM field is just a field. You can tweak properties of the EM field within reasonable limits without changing the nature of spacetime (and, therefore, without enabling time travel). Many thought experiments in special relativity presume that photons are massless, but that is merely out of convenience.

 bcrowell Mar16-10 10:07 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Fredrik (Post 2626612) "if a photon had a mass" is like saying "if a weekend was in the middle of the week".
No, it's like saying, "what if we do such-and-such an experiment tomorrow, and the result is such-and-such." It's perfectly possible that the photon has a nonvanishing rest mass.

Baez has a nice summary of this:

http://math.ucr.edu/home/baez/physic...oton_mass.html

(The relevant part is at the end.)

Here are some experimental papers on this topic:

Goldhaber and Nieto, "Terrestrial and Extraterrestrial Limits on The Photon Mass," Rev. Mod. Phys. 43 (1971) 277–296

R.S. Lakes, "Experimental limits on the photon mass and cosmic magnetic vector potential", Physical Review Letters 80 (1998) 1826, http://silver.neep.wisc.edu/~lakes/mu.html

Luo et al., “New Experimental Limit on the Photon Rest Mass with a Rotating Torsion Balance”, Phys. Rev. Lett, 90, no. 8, 081801 (2003)

The Luo paper is controversial.

 Fredrik Mar16-10 11:16 AM

Re: "If a photon had a mass, time travels would be possible"

It depends on if we consider a concept like "photon" to be defined by a specific theory or by a class of similar theories that are consistent with experiments.

 yuiop Mar16-10 11:33 AM

Re: "If a photon had a mass, time travels would be possible"

In futuristic Startrek like scenarios you could in principle transmit all the information about the DNA and atoms that make up your body to a distance location and effectively a copy of you could be transmitted at the speed of light (ignoring the time to reconstruct your body) but you would not end up with time travel in the sense of travelling backwards in time.

Quote:
 Quote by jumpjack (Post 2626599) How does mass relate to time travel and/or time warp in relativity?
Having rest mass prevents you from travelling exactly at the speed of light. Even if there was some hypthetical method such as the one I mentioned above that allows you to travel at the speed of light you would stillnot be able to travel backwards in time. To travel backwards in time you have to travel faster than the speed of light and particles with rest mass and light with zero rest mass can not exceed the speed of light. In theory a particle with imaginary rest mass can travel faster than light (eg the hypothetical tachyons) but these particles are unable to slow down to the speed of light or less.

What does it mean to have imaginary mass? A particle with imaginary mass can not interact with normal matter and it is very likely that it imposssible to detect tachyons using equipment made of normal matter. In theory there could be a whole universe of tachyonic matter superimposed on our universe but the tachyons would be unable to detect us (just as we can not detect them) and the tachyons would theorise that in principle there is matter that travels slower than light but those slow particles are undetectable and only theoretical (although we know we exist!). In other words to a tachyon we are made of imaginary mass.

 bcrowell Mar16-10 11:38 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Fredrik (Post 2627004) It depends on if we consider a concept like "photon" to be defined by a specific theory or by a class of similar theories that are consistent with experiments.
No, it's purely an experimental question. We used to think neutrinos were massless, but experiments ended up showing that they had nonvanishing rest mass. It's not a matter of theory or definition, it's simply an empirical observation. The same holds for photons.

 Fredrik Mar16-10 11:55 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by bcrowell (Post 2627039) No, it's purely an experimental question.
No, it's not. They are massless by definition in QED. So if your "photons" have mass, you didn't use the QED definition of that term.

 matheinste Mar16-10 04:17 PM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by bcrowell (Post 2627039) No, it's purely an experimental question. We used to think neutrinos were massless, but experiments ended up showing that they had nonvanishing rest mass. It's not a matter of theory or definition, it's simply an empirical observation. The same holds for photons.
So our assumptions about the neutrino were incorrect. And of course the possiblity is always present that any of our assumptions about any presently accepted physical facts or theories may in future be proven to be wrong by experiment. But would it not be harmless and lead to less confusion, for beginners such as myself to continue, for the purposes of this forum, to assume that photons have zero rest mass.

If we assume the possibility that the rest mass of the photon is non zero, not a totally unreasonable possibility, some of the questions asked in this forum and often rendered meaningless by the photon not having an inertial rest frame due to its zero rest mass, cease to be meaningless, unfortunately causing complications and at worst, misunderstandings.

Can we please agree, for the sake of simplicity, that until proven otherwise the photon having zero rest mass is a fact.

Matheinste.

 Frame Dragger Mar16-10 04:43 PM

Re: "If a photon had a mass, time travels would be possible"

I'm sorry, but this is a bit astray from "if a photon has mass, time travels would be possible". The simple answer is: "No"
The best answer is the one Frederick gave several times.

@Matheinste: Anyone confused that the photon has a non-zero rest mass isn't confused, they're deluded.

 bcrowell Mar16-10 05:40 PM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Fredrik (Post 2627062) No, it's not. They are massless by definition in QED. So if your "photons" have mass, you didn't use the QED definition of that term.
If experimentalists find out tomorrow that the photon has nonzero rest mast, do you really think everybody will start using a different word for to describe it? Of course not. They'll do the same thing they did with the neutrino. They'll keep on using the same word, but they'll attribute different properties to it.

Quote:
 Quote by Frame Dragger (Post 2627433) Anyone confused that the photon has a non-zero rest mass isn't confused, they're deluded.
Statement #1: "The photon has non-zero rest mass."
Statement #2: "The rest mass of the photon must be empirically determined, and future experiments may prove it to be nonzero."

You're setting up a straw man by making it sound as though someone has made statement #1. Nobody has.

Statement #2 is correct. If it were incorrect, then I doubt that Phys Rev Letters would have accepted Lakes (1998).

I suspect that a lot of people replying to the OP are suffering from the same confusion that the OP was suffering from. They may believe that light somehow plays a fundamental role in relativity. If that were the case, then a change in the experimental status of light's properties would affect the foundations of relativity. If one is firmly wedded to relativity, then one may be inclined to reject the possibility that the experimental status of light's properties would ever change.

Light does not play a fundamental role in relativity. That's why the answer to "If a photon had a mass, time travels would be possible" is no.

I suggest that folks participating in this thread read at least the abstract of the Lakes paper, and then ask, "If I'd been the referee that this paper was sent to, would I have rejected it based on the views I've expressed in this thread?" If the answer is yes, then maybe the views you've expressed in this thread are wrong; either that or PRL messed up by accepting a totally pointless paper.

R.S. Lakes, "Experimental limits on the photon mass and cosmic magnetic vector potential", Physical Review Letters 80 (1998) 1826, http://silver.neep.wisc.edu/~lakes/mu.html

 Fredrik Mar16-10 07:18 PM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by bcrowell (Post 2627495) If experimentalists find out tomorrow that the photon has nonzero rest mast, do you really think everybody will start using a different word for to describe it?
What you're saying here doesn't make sense. You can't find out that something that's massless by definition is massive. (And if photons are defined by QED, they are massless by definition). What you can find out is that there's a theory that makes better predictions than QED. If that theory is a QFT that's identical to QED except that the spin-1 field is massive, then it would make sense to call the particles corresponding to that field "photons". But it only makes sense to say that you have "measured the mass of the photon to be non-zero" if you defined the word "photon" using that class of theories instead of a single theory. I'm surprised you keep objecting to that. It's not exactly a radical claim.

Quote:
 Quote by bcrowell (Post 2627495) I suggest that folks participating in this thread read at least the abstract of the Lakes paper, and then ask, "If I'd been the referee that this paper was sent to, would I have rejected it based on the views I've expressed in this thread?" If the answer is yes, then maybe the views you've expressed in this thread are wrong; either that or PRL messed up by accepting a totally pointless paper.
You seem to be replying to something very different from what's been posted in this thread.

 Frame Dragger Mar16-10 07:47 PM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Fredrik (Post 2627655) What you're saying here doesn't make sense. You can't find out that something that's massless by definition is massive. (And if photons are defined by QED, they are massless by definition). What you can find out is that there's a theory that makes better predictions than QED. If that theory is a QFT that's identical to QED except that the spin-1 field is massive, then it would make sense to call the particles corresponding to that field "photons". But it only makes sense to say that you have "measured the mass of the photon to be non-zero" if you defined the word "photon" using that class of theories instead of a single theory. I'm surprised you keep objecting to that. It's not exactly a radical claim.
You continually teach me (along with others here), better ways to teach and handle misconceptions instead of scoffing or becoming annoyed. Thank you.

 yuiop Mar16-10 11:03 PM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by Frame Dragger (Post 2627433) @Matheinste: Anyone confused that the photon has a non-zero rest mass isn't confused, they're deluded.
This is what the physics FAQ http://www.desy.de/user/projects/Phy...oton_mass.html has to say:
Quote:
 If the rest mass of the photon were non-zero, the theory of quantum electrodynamics would be "in trouble" primarily through loss of gauge invariance, which would make it non-renormalisable; also, charge conservation would no longer be absolutely guaranteed, as it is if photons have zero rest mass.
but it then follows up with

Quote:
 But regardless of what any theory might predict, it is still necessary to check this prediction by doing an experiment.
The FAQ then describes two experiments that put a limit on the mass of a photon:
Quote:
 The Charge Composition Explorer spacecraft was used to derive an upper limit of 6 × 10-16 eV with high certainty. This was slightly improved in 1998 by Roderic Lakes in a laboratory experiment that looked for anomalous forces on a Cavendish balance.
and this other FAQ http://www.phys.ncku.edu.tw/mirrors/...ml#photon_mass describes other research that puts a limit on the mass of a photon:
Quote:
 Goldhaber and Nieto, “New Geomagnetic Limit on the Mass of the Photon”, Phys. Rev. Lett. 21 no. 8 (1968), pg 567. A limit of 2.3×10−15 eV/c2. Goldhaber and Nieto, “Terrestrial and Extraterrestrial limits on the Photon Mass”, Rev. Mod. Phys. 43 no. 3 (1971), pg 277. A review article discussion about various experimental limits. Davis et al., “Limit on the Photon Mass Deduced from Pioneer-10 Observations of Jupiter's magnetic Fields”, Phys. Rev. Lett. 35 no. 21 (1975), pg 1402. A limit of 6×10−16 eV/c2. Lakes, “Experimental limits on the Photon Mass and Cosmic Magnetic Vector Potential”, Phys. Rev. Lett. 80 no. 9 (1998), pg 1826. An experimental approach using a toroid Cavendish balance. Luo et al., “New Experimental Limit on the Photon Rest Mass with a Rotating Torsion Balance”, Phys. Rev. Lett, 90, no. 8, 081801 (2003). A limit of 1.2×10−51 g (6×10−19 eV/c2). See also the Particle Data Group's summary on “Gauge and Higgs Bosons”. As of July 2007, their reported limit on the photon mass is 6×10−17 eV/c2.
That seams a lot of money wasted on research when if they only read physicsforums they would realise that the mass of a photon has been defined as zero.

 Frame Dragger Mar17-10 05:57 AM

Re: "If a photon had a mass, time travels would be possible"

Quote:
 Quote by kev (Post 2627909) This is what the physics FAQ http://www.desy.de/user/projects/Phy...oton_mass.html has to say: but it then follows up with The FAQ then describes two experiments that put a limit on the mass of a photon: and this other FAQ http://www.phys.ncku.edu.tw/mirrors/...ml#photon_mass describes other research that puts a limit on the mass of a photon: That seams a lot of money wasted on research when if they only read physicsforums they would realise that the mass of a photon has been defined as zero.
Well, to adress your first quote, why not ask people more qualified than me if they believe QED is so terribly flawed that the photon has rest mass? As others have said, first you'd need a QFT to simply "accept" the 'new photon' or the new theory would describe them differently.

As for your last point, if there were an experiment to determine if the photon had rest mass, can you even IMAGINE a test using the tech of the next saaaaay... 20 years? I can't, so it's probably going to be a matter of either a replacement theory that doesn't say "photon", or some very similar QFT.

EDIT: By the way, what theory doesn't require experimentation?!

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