Physicists Say Graphene Could Create Mass

eldavojohn writes "Graphene has gotten a lot of press lately. The Nobel prize-winning, fastest-spinning, nanobubble-enhanced silicon replacement is theorized to have a new, more outlandish property. As reported by Technology Review's Physics Blog, graphene should be able to create mass inside properly formed nanotubes. According to Abdulaziz Alhaidari's calculations, if one were to roll up graphene into a nanotube, this could compactifiy dimensions (from the sheet's two down to the tube's one), and thus 'the massless equations that describe the behavior of electrons and holes will change to include a term for mass. In effect, compactifying dimensions creates mass.' What once would require a massive high-energy particle accelerator can now be tested with carbon, electricity, and wires, according to the recent paper."

A new particle

[somersault]

Scientists have now isolated the particle that causes this strange mass inducing effect, and have dubbed it the "YoMamma".

We call it

the Mass Effect.

Re:Can anybody summarize TFA?

[bsDaemon]

I think they're just claiming the mass they expect to make next year, assuming they'll balance their mass sheets at that point?

Re:Can anybody summarize TFA?

[hcg50a]

The /. title of this article is wrong, stupid and misleading.

The title of TFA is "Dynamical mass generation via space compactification in graphene", which is mostly incomprehensible.

The abstract sez "Fermions in a graphene sheet behave like massless particles. We show that by folding the sheet into a tube they acquire non-zero effective mass as they move along the tube axis. That is, changing the space topology of graphene from 2D to 1D (space compactification) changes the 2D massless problem into an effective massive 1D problem."

A plain english annotated translation is "Electrons in a graphene sheet behave like massless particles. We show that by folding the sheet into a tube they behave like massive particles as they move along the tube axis. That is, changing the shape of graphene from 2D to 1D changes the 2D massless problem into an effective 1D massive problem, which may be easier to solve or model or understand in certain respects.

Note electrons have the same real mass in both cases. Mass is not being created or destroyed.

Re:Not 1-dimensional

[zero_out]

It's not the dimensions in which the graphene occupies that is 1D. It's the dimensions along which a particle moves. Graphene, being 1 atom thick, would normally be a sheet, occupying 3 dimensional space. The particles would move along the graphene in 2 dimensional space. If you rolled the sheet into a single atom thick carbon nanotube, it still occupies 3 dimensional space, but the particles will only move along 1 dimension.

Re:Not 1-dimensional

[Xelios]

If you RTFA they clarify that the tube is 1 dimensional as far as the electrons and holes are concerned, probably because instead of being able to move across the sheet of graphene in both the x and y directions they're now constrained to move only in one direction, up and down the nanotube. If there's only one possible axis of movement, then you're effectively in a 1 dimensional system.

Re:Can anybody summarize TFA?

[Lobachevsky]

All science predictions are math tricks. If the prediction holds up, our existing models are correct, otherwise, our existing models are broken. Creating mass from graphene is not a new theory, it is the _consequence_ of our existing theories that someone cleverly derived.

Point is, either way, Abdulaziz Alhaidari is now famous and has done the incredible. He's either famous for making a marvelous derivation of our existing theories, or he's famous for disproving our current models by explaining what our current models predict that would later be experimentally contradicted. Just as the Manhattan project was a test of atomic theory; if it worked, an amazing weapon was created; if it didn't work, it had profound ramifications on invalidating the the atomic theory of the day. Either it's a win for engineering, building something amazing, or a win for science, changing the models to more closely match reality.

It is pseudo mass, like pseudo force.

[140Mandak262Jamuna]

Let us say you are hanging outside by holding on the window bars a long train (make it infinitely long train, who cares? it is theoretical physics, Also make it a train in India because most trains in Europe and USA have glass windows with no grab holds) and the train is moving with some speed. The outer walls of the train would not grab you and hold you against gravity. You have to hang on with your dear life. But if you curve the train track to make it circular, you will experience a centrifugal force that pins you to the outer wall of the train, and you can even let go of the window bars and shout, "Look! Ma! No hands".

Of course you know that centrifugal force is not a real force, but a pseudo force you conjure up if you are working on a reference frame attached to the train. From an inertial frame of reference, your velocity is being changed constantly. Change in velocity is acceleration. The change in direction would be towards the center of the circular track. That acceleration is centripetal acceleration. The train is exerting a force centripetal force on you. The reaction from your body on to the train for that force times friction coefficient gives you the force that is holding you still stuck like a fly on the wall of a train moving in a circular track.

As one who has spent years hanging on to the window bars of trains and buses in Chennai, India, let me tell you, no matter how many Einsteins tell you that is a pseudo force, it felt real and that I am still living, not having been run over decades ago by the next bus or train proves that centrifugal force is real. Not pseudo.

Similarly the fermions seem to be having a mass to satisfy some equation in some frame of reference after some coordinate transformation. But really it is not creating any mass.

Re:It's called our circle of science!

[mcgrew]

The link to the paper just gives the executive summary, which actually conveys little information. Even wikipedia wasn't much help. If there's a physicist out there, I get the impression that somehow leptons are being converted to fermions? If so, how, and why do they? If not, could someone give a good explanation?

This is fascinating, but I can't find much explanation.

http://www.ncbi.nlm.nih.gov/pubmed/17358966
Magnetic confinement of massless Dirac fermions in graphene.
De Martino A, Dell'Anna L, Egger R.

Institut für Theoretische Physik, Heinrich-Heine-Universität, D-40225 Düsseldorf, Germany.

Abstract
Because of Klein tunneling, electrostatic potentials are unable to confine Dirac electrons. We show that it is possible to confine massless Dirac fermions in a monolayer graphene sheet by inhomogeneous magnetic fields. This allows one to design mesoscopic structures in graphene by magnetic barriers, e.g., quantum dots or quantum point contacts.

PMID: 17358966 [PubMed]

Re:Can anybody summarize TFA?

[CraftyJack]

It's a "math trick", and not a new one. From TFP:

Recall that this method of mass generation has been utilized exclusively in high energy physics, supergravity, string theory and related fields [9]. To the best of our knowledge, the present work constitutes the first successful application of this method in condensed matter physics. Another example of space compactification is found in a system consisting of a stack of graphene sheets with coupling between the layers making the massless 3D problem equivalent to an effective massive 2D problem [8].

In other words: "We applied an existing math trick to a new area of theoretical physics, and things look good so far."
You take that, feed it to the "Technology Review" blog, and you get:

The amazing properties of graphene now include the ability to create mass, according to a new prediction.

...which is not quite the same.

Re:It's called our circle of science!

[idontgno]

If there's a physicist out there, I get the impression that somehow leptons are being converted to fermions?

When life hands you leptons, make leptonaide.

Indeed, I'm not a physicist. How'd you guess?

Re:It's called our circle of science!

[kurokame]

Actually, the abstract nails what the actual news here is.

You can't confine a Dirac electron electrostatically. They show that it can be done with magnetic fields. This is sort of cool because it has potential ramifications for incorporating nanotechnology into electronics.

After the wharrgarbl, it mutates into a headline about creating mass and using it to power FTL starships from video games.

Re:Can anybody summarize TFA?

[radtea]

In graphene, electrons behave like massless particles traveling near the speed of light.

No, electrons do not.

"Charge carriers", which in the case of graphene are quasi-particles that result from the interaction of electrons with the more-or-less 2D medium, do.

The difference is tremendously important, althought admitedly your explaination is about a million times better than the gibberish in the headline and summary.

This is interesting and legitmate physics: charge-carrying quasi-particles in 2D graphene behave as massless particles in a 2+1D spacetime (according to the paper, at least.) If you role the sheet up the dynamics of the quasi-particles becomes that of massive particles in a 1+1D spacetime. This allows experimental realization of systems described by relativistic dynamics (the Dirac Equation) under much simpler circumstances than one might generally expect.

This is similar to the research on "solid state monopoles" which behave like Dirac monopoles over large distance scales. They allow the study of a wide range of phenomena that are otherwise inaccessible (and in the case of Dirac monopoles, entirely theoretical!)

No mass in the ordinary sense of the term is created in the situation the paper describes. If you weighted the system with a sufficiently sensitive balance you would not find that the apparatus weighted more when the graphene sheet was rolled up.

Something Fishy

[Roger+W+Moore]

If there's a physicist out there, I get the impression that somehow leptons are being converted to fermions?

Leptons (e..g electron) are fermions. However there is something very fishy with this paper. For example 10^6 m/s is not relativistic. If you calculate the gamma factor (gamma=1 is what Newtonian physics assumes) you get 1.0000056. This means they are very non-relativistic and Schrodinger should work fine for them unless there is some subtle effect at play. Indeed to give electrons this energy you need to accelerate them through a potential of 2.8 volts so rather than needed a particle accelerator any one with a vacuum pump, a vacuum-tight container, some wire and two AA batteries can experience the fun of "relativistic" electrons.

What I suspect is happening is that the conditions on graphene have altered the electron behaviour so, rather than test anything fundamental, you are testing the properties of electrons on graphene. You cannot do real relativistic physics with this because if you get an unexpected result you have no idea whether it is because there is some new, unexpected physics at work or whether your approximation of the environment is simply wrong and you need to use a different model for it. Hence, while interesting, this is not the way to do real, relativistic physics: for that you need something that is truly relativistic, not just something which might, under certain conditions, act like something relativistic.