Scientists claims light speed barrier broken

This is because the information is meaningless in quantum entanglement, making it impossible to use it for communication purposes. Therefore, the concept of breaking the speed of light barrier remains a theoretical possibility, but has not been achieved in practical terms.
  • #1
E=mc²
A pair of German physicists claim to have broken the speed of light - an achievement that would undermine our entire understanding of space and time.

According to Einstein's special theory of relativity, it would require an infinite amount of energy to propel an object at more than 186,000 miles per second.

However, Dr Gunter Nimtz and Dr Alfons Stahlhofen, of the University of Koblenz, say they may have breached a key tenet of that theory.

The pair say they have conducted an experiment in which microwave photons - energetic packets of light - traveled "instantaneously" between a pair of prisms that had been moved up to 3ft apart.

Source
 
Physics news on Phys.org
  • #2
I find this article sketchy, light travels at 186,000mps so traversing just 3ft would seem instantanoues to most, if not all.
 
  • #3
Oh no, no, no, no... not that superluminal tunneling AGAIN!

Zz.
 
  • #5
ZapperZ said:
Oh no, no, no, no... not that superluminal tunneling AGAIN!

Zz.

I'm a newb at physics, but i do understand the basic concept of Quantum Tunneling, so my question is. Is this just phooey?
 
  • #6
SF said:
Here's the Arxiv page: http://arxiv.org/pdf/0708.0681

Ah, thanks.

So, is it me, or did the authors conveniently omitted to show any data of the results? All they did was mentioned the results, but what about the signal of both the transmitted and reflected, especially done at various angles? I'd like to see the signal. This "paper" has in fact very little of the actual results that we can actually look at.

If I were the referee, I'd send it back.

Zz.
 
  • #7
From what I understand Nimtz's experiment actually has nothing to do with quantum tunneling, it's an effect based purely on classical E&M which is only analogous to quantum tunneling in the sense that the strength of the wave drops off exponentially as it passes through a barrier (on another thread someone mentioned that this effect goes by the name evanescent coupling). See this blog post by a physics postdoc in Germany, for example, or http://citeseer.ist.psu.edu/cache/papers/cs/23719/http:zSzzSzwww.uni-koeln.dezSz~abb11zSzbrodowsky.pdf/comparison-of-experimental-microwave.pdf by Nimtz himself. And of course classical E&M, being Lorentz-symmetric, can never allow genuine FTL signals.
 
  • #8
I like this explanation (simple):

"3) In all cases of superluminal tunneling, the pulse that emerges from the tunnelling process is greatly attenuated, and "front-loaded" -- only the leading edge of the incident pulse survives the tunnelling event without being severely attenuated to the point that it cannot be detected. If we measure the speed by the peak of the pulse, it looks faster than the incident pulse. But that is just an artefact of our definition of speed as marked by the arrival of the peak in the pulse."

http://scienceweek.com/2004/sa040618-5.htm
 
  • #9
They haven't transmitted any information faster than light they have either misunderstood the difference between group and phase velocity (unlikely) or they or their PR dept have slightly sexed-up the report.
It's still an impressive distance to couple an effervescent wave through.
 
  • #10
Ok, that article is true and not true at the same time, that reminds me of some QM ideas, nvm. The problem here is that the experiment is a "non locality" effect, as they were many, including the famous transportation of quantum states of IBM and many others in the last 30 years. It is a misunderstood use of language about speed or velocity in non locality, i will elaborate this, just one more thing special relativity maxima of nothing can beat speed of light in vacuum is still valid for "locality".

Well since 1932 there was an interesing idea released on an article of a paradox, the EPR (Einstein, Podolsky and Rosen). In there it was stated "the spooky action at distance". Time passed and John Bell, made a impressive intuitive calculations, which lead to Bell theorem, it explained EPR paradox quite well, and it lead to quantum entanglement and other ideas after it.

Lets just look at quantum entanglement that is easier to "buy" the first time you hear about it, it states that 2 particles who share the same past, are quantum entangled(mixed), that means if further in time that particle is separated any distance if you somehow modify it, the "quantum states" transport "iinstantaneously" to the other entangled particle that can be very very far away. Physics have been aware of such effect since a 30s, yet many possible explanations were given like "hidden variables" or "many worlds".

But around 1960 Bell came and made the Bell inequity(that later became a theorem), in which stated that no "locality" theory of physics can explain Quantum effects. There were around 30 years of experimentation and validation of that theory. All quantum calculations are on a non locality state, that is why you can think about poor schrödinger cat that is half a live and half death, yet, when you take the measure you are getting into a local state, so the cat is either alive or death but not both.

So when we are talking about quantum ideas, the problem is that we are referring to a non local reality where speed doesn't make much sense. So if you look to those quantum experiments, nothing can travel faster than light, yet at the same time quantum entanglement allows you to transportate information instantaneously.

Now the beauty of those theories comes in black holes (and other similars, that once were called by mistake singularities). Is it possible that quantum entanglement is happening at the domain wall so quantum information from inside states is going to outside as Hawking radiation? If so how would that look like?, what about the temperature of the states specially its spectrum?
Those answers will lead us to some very important understanding of quantum gravity and perhaps we would be able to declare LQG, M-theory, Casual sets or another the winner.
 
Last edited:
  • #12
E=mc² said:
>> Scientists claims light speed barrier broken

It has been broken long time ago
But the question is, can you send infomation/message faster than the speed of light;
For example, you can not send information using quantum entanglement which can travel faster than the speed of light
 
Last edited:
  • #13
I agree you can't send information but you can send the configuration of quantum states, so one could think i am sending information via quantum states, but the deal is that the information was already there.
 
  • #14
Nimtz & Stahlhofen - a few details

Keep in mind this hasn't been published yet, so this isn't "the whole ball of wax", from what I understand the version the link below takes you to amounts to preliminaries still under review.

I.e. "lets not have a cow man" ;-) , at least not yet.

That said, a careful reading does offer a few tantalizing details worthy of chewing on that *I* haven't seen anywhere else, and since everybody seemed to have questions about things omitted (conveniently or not) in most of the coverage in the lay press, I'm hoping this will answer at least some of those questions.

http://arxiv.org/ftp/arxiv/papers/0708/0708.0681.pdf

Thoughts?
 
  • #15
I've merged this with the existing thread.
 
  • #16
Okay, why do people assume that if something travels faster than the speed of light that it arrives at its destination instantly OR EVEN that it arrives before it left in the first place? In the universe Light is slow compared to the distance it must travel, that is why we refer to "10 billion light years" making a references as to the distance an object traveling at the speed of light would cover. If that object traveled faster even by 2 Miles per second that is just a little bit faster and would be considered "faster" then the normal speed of light yet over it's distance still make little to no difference as to the time that light would get from point A to B. If it takes 10 Billion Light years to get from point A to point B and you travel 2X the speed of light, would you arrive there instantaneously or should you get to point B in 5 billion years instead of 10?

When ever we have experimented with particles traveling "faster then the speed of light" the results show that be "package" arrived before the button was pushed for it to leave. Maybe because we do not have equipment advanced enough to calculate how fast this is actually going. The results them selves would have a delay time for christ's sakes! Even a Fiber Optic machine would have a delay time in measuring results if what it is in fact testing goes faster then it can even transfur or capture data... Of course the results are scewed. Maybe that's why.

Can't Light travel faster then it normally does anyway when it bends around a big gravitational field like a black hole but doesn't get caught? Kind of like how a Meteor gets caught in Jupitors grav. field and gets flung out the other side even faster? Light speed anomalies have happened.
 
Last edited:
  • #17
Mixolydian said:
Okay, why do people assume that if something travels faster than the speed of light that it arrives at its destination instantly OR EVER it arrived before it left in the first place?
Because it's a fairly easy geometric fact of Minkowski space-time that if something travels faster than the speed of light, there are inertial coordinate charts where it travels instantaneusly, and there are inertial coordinate charts where it arrives at its destination before it leaves its origin.
 
  • #18
I researched this slightly and found this Nimtz has been at this for at least 10 years!

G. Nimtz:
www.public.asu.edu/~strato/Internet/Evanescent modes G Nimtz.pdf

His only collaborators. Notice the title.
www.public.asu.edu/~strato/Internet/Photonic tunneling Z Wang.pdf

I don't think it's stated in this paper, but Nimtz said something about transmitting a Mozart symphony faster than light and this guy directly attacks that statement in the end.
www.public.asu.edu/~strato/Internet/Faster than light A. Fettweis.pdf

There are lots of papers refuting this guy and I don't see that many accept his interpretation of events.
 
Last edited by a moderator:
  • #19
So am I to understand that photonic tunneling is bs? I assumed that nimitz more or less just transferred information between two photons but not the photons themselves?

Now I'm more confused than I started!
 
  • #20
No tunneling is real - what this guy was claiming, at least in an earlier version, was basically the difference between group and phase velocity. Phase velocity can go faster than light but doesn't carry any information.

As a simple analogy, imagine that the front edge of a photon can spread out forward and arrive before the middle of the photon (which is traveling at the speed of light) - so you have a photon going faster than light. But you can't be sure the photon is there until you have the trailing edge so to transfer any info you have to wait for the whole photon to arrive = the speed of light.

(ok it's an over simplisitic ie. wrong explantation)
 

FAQ: Scientists claims light speed barrier broken

What exactly does it mean for the light speed barrier to be broken?

Breaking the light speed barrier means that an object or particle has been able to move faster than the speed of light, which is approximately 299,792,458 meters per second. This is a fundamental limit in our understanding of physics, and it has been long believed that nothing can travel faster than light.

How was the light speed barrier broken?

The light speed barrier has not been definitively broken yet. There have been claims of experiments and observations that suggest particles or objects may have exceeded the speed of light, but these results have not been replicated and have been met with skepticism from the scientific community.

What are the implications of breaking the light speed barrier?

If the light speed barrier is truly broken, it would have huge implications for our understanding of the laws of physics. It could potentially lead to new technologies and ways of thinking about space and time. However, until these claims are thoroughly tested and confirmed, it is difficult to predict the exact implications.

Is it possible for anything to travel faster than light?

Based on our current understanding of physics, it is not possible for anything to travel faster than light. The theory of relativity, which has been extensively tested and confirmed, states that the speed of light is a fundamental limit in the universe.

What is the scientific community's response to claims of the light speed barrier being broken?

The scientific community remains skeptical of claims that the light speed barrier has been broken. Extraordinary claims require extraordinary evidence, and until these results are replicated and confirmed by multiple independent studies, they will be viewed with caution by the scientific community.

Similar threads

Replies
12
Views
7K
Back
Top