I was happy to see the following article by Braun, He, Ovrut, and Pantev:

As a conservative person, I must say that this kind of models is what still looks as a most satisfactory answer of string theory to the real world, even though some issues - like the smallness of the cosmological constant and various unwanted operators from supersymmetry breaking - are not answered yet.

What are the features of their model?

- We have observed the neutrino oscillations and masses at the sub-eV scale implied by the seesaw mechanism, so it's natural to have right-handed neutrinos and something like GUT scale physics
- A generation of fermions, including the right-handed neutrino, then transforms as the 16 spinor under a SO(10) GUT-like group
- In string theory, one can obtain this SO(10) group from the E_8 in the heterotic string, simply by taking the heterotic strings on a Calabi-Yau with a SU(4) bundle that breaks the gauge group from E_8 to SO(10)
- SO(10) should then be broken to the Standard Model. The large Higgs representations etc. have always been bad, and string theory has a natural breaking pattern using the Wilson lines
- We really need two Wilson lines in a Z_3 x Z_3 discrete subgroup of SO(10), and their centralizer is the Standard Model group times an extra U(1) that counts B-L (baryon number minus lepton number)
- Such a breaking by the Wilson lines reduces the symmetry while it keeps the fermion spectrum

- It is an elliptic fibration over the half-K3 surface dP_9
- Its values of h_{1,1} and h_{1,2} are both equal to 3
- Because both of these numbers are very small (3,3), in some sense it is a "simple" Calabi-Yau and a very attractive one for me
- Also, because 3=3, I guess that this Calabi-Yau is its own self-mirror, is that correct? At least the Hodge diamond seems to imply it
- It has the right fundamental group allowing you to break SO(10) to the Standard Model via the Wilson lines - a pretty special thing, they say

- The gauge bosons of SU(3) x SU(2) x U(1) x U(1)_{B-L}
- Three generations of quarks and leptons with right-handed neutrinos
- The number of generations 3 requires that the 3rd Chern class of the SU(4) bundle must be +54 or -54

- Two pairs of Higgs doublets
- Six geometric moduli and a small number of vector bundle moduli
- No exotic matter fields (charged under the SM group)

- A small number of vector bundle moduli
- The gauge group Spin(12) at weak coupling, or E_7 x U(6) at strong coupling
- For the weak coupling, there are also 2 matter field multiplets in 12 of Spin(12), and no matter fields at the strong coupling

I wonder whether there are dual descriptions to this vacuum. For example, because the Calabi-Yau three-fold is an elliptic fibration, one should be able to use the heterotic/F-theory duality to get an equivalent description of this model as F-theory on a K3-fibration over dP_9, is that correct?

## snail feedback (3) :

This strongly reminded me of the following topical

"abstract":

We propose a new beyond the standard model theory, which has distinct low-energy phenomenological consequences

and precise agreement with experimental data.

The fundamental theory (whose form is still unknown) lives in a higher dimensional space.

However, non-perturbative interactions confine the unified field of this theory to two branes, one on which we

live and another which is very very close to us.

The fields on our brane generate the normal standard model particles with which we are all familiar.

The fields confined to the very nearby brane generate a hidden sector, which we call "Iraqi weapons of

mass destruction". These Iraqi weapons of mass destruction are therefore very close to us, close enough

to hit us in less than 45 minutes under the right conditions.

However, the fact that they are confined to a different brane means they cannot interact with standard Gauge bosons, and most of the world can not see them.

There is, however, a twist: The symmetry breaking inherent in this dimensional reduction, generates a

new field, called Oil money, capable of mediating an interaction between visible and hidden sector.

Particles charged with enough oil money can therefore detect weapons of mass destruction, through the

exchange of a boson, called a Halliburton.

Basic quantum mechanics therefore predicts a distinct low-energy signature:

Only observers charged with enough oil money will be able to detect weapons of mass destruction, which, throgh real, will

remain completely invisible and undetectable to the rest of the universe.

We asked for funding to develop the consequences of this model

further.

Its novelty, however, prevents us from seeking funding

from traditional sources such as the Department of Energy or the National Science Foundation.

We therefore asked the State Department and the Pentagon to provide us with a grant.

These two funding agencies were extremely interested in our model, and we therefore expect to hire the rest

of the theoretical physics community within the following two weeks to advance this research

(its collective budget being considerably less than 87 billion

dollars).

Wow, that's so funny. Did you invent this all by yourself, or did your mom help you a little bit?

Hi Lubos -- I'm glad you reviewed this paper. I think that their work represents a lot of interesting and exciting progress. In fact, when it first posted I thought I might ask you to comment on it -- looks like you came through in the end!

Best,

Ian

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