In
particle physics
Particle physics or high energy physics is the study of fundamental particles and forces that constitute matter and radiation. The fundamental particles in the universe are classified in the Standard Model as fermions (matter particles) an ...
, SO(10) refers to a
grand unified theory
A Grand Unified Theory (GUT) is a model in particle physics in which, at high energies, the three gauge interactions of the Standard Model comprising the electromagnetic, weak, and strong forces are merged into a single force. Although this ...
(GUT) based on the
spin group
In mathematics the spin group Spin(''n'') page 15 is the double cover of the special orthogonal group , such that there exists a short exact sequence of Lie groups (when )
:1 \to \mathrm_2 \to \operatorname(n) \to \operatorname(n) \to 1.
As a ...
Spin(10). The shortened name SO(10) is conventional among physicists, and derives from the
Lie algebra or less precisely the
Lie group of SO(10), which is a
special orthogonal group that is
double covered by Spin(10).
SO(10) subsumes the
Georgi–Glashow and
Pati–Salam model
In physics, the Pati–Salam model is a Grand Unified Theory (GUT) proposed in 1974 by Abdus Salam and Jogesh Pati. Like other GUTs, its goal is to explain the seeming arbitrariness and complexity of the Standard Model in terms of a simpler, more f ...
s, and unifies all
fermions in a
generation
A generation refers to all of the people born and living at about the same time, regarded collectively. It can also be described as, "the average period, generally considered to be about 20–30 years, during which children are born and gr ...
into a single field. This requires 12 new
gauge bosons, in addition to the 12 of
SU(5) and 9 of
SU(4)×SU(2)×SU(2).
History
Before the
SU(5) theory behind the
Georgi–Glashow model
In particle physics, the Georgi–Glashow model is a particular grand unified theory (GUT) proposed by Howard Georgi and Sheldon Glashow in 1974. In this model the standard model gauge groups SU(3) × SU(2) × U(1) are combined into a single ...
,
Harald Fritzsch
Harald Fritzsch (born 10 February 1943 in Zwickau, Germany, died 16 August 2022 in München) was a German theoretical physicist known for his contributions to the theory of quarks, the development of Quantum Chromodynamics and the great unifi ...
and
Peter Minkowski
Peter Minkowski (born 10 May 1941) is a Swiss theoretical physicist. He is primarily known for his proposal, with Harald Fritzsch, of SO(10) as the group of a grand unified theory and for his independent proposal, more-or-less simultaneously with ...
, and independently
Howard Georgi
Howard Mason Georgi III (born January 6, 1947) is an American theoretical physicist and the Mallinckrodt Professor of Physics and Harvard College Professor at Harvard University. He is also Director of Undergraduate Studies in Physics. He was Co-M ...
, found that all the matter contents are incorporated into a single representation,
spinorial 16 of SO(10).
However, it is worth noting that Georgi found the SO(10) theory just a few hours before finding SU(5) at the end of 1973.
Important subgroups
It has the
branching rules to
χ">U(5)×U(1)χZ
5.
:
:
:
If the
hypercharge
In particle physics, the hypercharge (a portmanteau of hyperon, hyperonic and charge (physics), charge) ''Y'' of a subatomic particle, particle is a quantum number conserved under the strong interaction. The concept of hypercharge provides a sin ...
is contained within SU(5), this is the conventional
Georgi–Glashow model
In particle physics, the Georgi–Glashow model is a particular grand unified theory (GUT) proposed by Howard Georgi and Sheldon Glashow in 1974. In this model the standard model gauge groups SU(3) × SU(2) × U(1) are combined into a single ...
, with the 16 as the matter fields, the 10 as the electroweak Higgs field and the 24 within the 45 as the GUT Higgs field. The
superpotential
In theoretical physics, the superpotential is a function in supersymmetric quantum mechanics. Given a superpotential, two "partner potentials" are derived that can each serve as a potential in the Schrödinger equation. The partner potentials hav ...
may then include
renormalizable
Renormalization is a collection of techniques in quantum field theory, the statistical mechanics of fields, and the theory of self-similar geometric structures, that are used to treat infinities arising in calculated quantities by altering va ...
terms of the form ''Tr''(45 ⋅ 45); ''Tr''(45 ⋅ 45 ⋅ 45); 10 ⋅ 45 ⋅ 10, 10 ⋅ 16* ⋅ 16 and 16* ⋅ 16. The first three are responsible to the
gauge symmetry breaking at low energies and give the
Higgs mass, and the latter two give the matter particles masses and their
Yukawa coupling
In particle physics, Yukawa's interaction or Yukawa coupling, named after Hideki Yukawa, is an interaction between particles according to the Yukawa potential. Specifically, it is a scalar field (or pseudoscalar field) and a Dirac field of th ...
s to the Higgs.
There is another possible branching, under which the hypercharge is a linear combination of an SU(5) generator and χ. This is known as
flipped SU(5)
The Flipped SU(5) model is a grand unified theory (GUT) first contemplated by Stephen Barr in 1982, and by Dimitri Nanopoulos and others in 1984. Ignatios Antoniadis, John Ellis, John Hagelin, and Dimitri Nanopoulos developed the supersymmetr ...
.
Another important subgroup is either
L × SU(2)R">U(4) × SU(2)L × SU(2)RZ
2 or Z
2 ⋊
L × SU(2)R">U(4) × SU(2)L × SU(2)RZ
2 depending upon whether or not the
left-right symmetry
A chiral phenomenon is one that is not identical to its mirror image (see the article on mathematical chirality). The spin of a particle may be used to define a handedness, or helicity, for that particle, which, in the case of a massless particle, ...
is broken, yielding the
Pati–Salam model
In physics, the Pati–Salam model is a Grand Unified Theory (GUT) proposed in 1974 by Abdus Salam and Jogesh Pati. Like other GUTs, its goal is to explain the seeming arbitrariness and complexity of the Standard Model in terms of a simpler, more f ...
, whose branching rule is
:
:
Spontaneous symmetry breaking
The symmetry breaking of SO(10) is usually done with a combination of (( a 45
H OR a 54
H) AND ((a 16
H AND a
) OR (a 126
H AND a
)) ).
Let's say we choose a 54
H. When this Higgs field acquires a GUT scale
VEV
In quantum field theory the vacuum expectation value (also called condensate or simply VEV) of an operator is its average or expectation value in the vacuum. The vacuum expectation value of an operator O is usually denoted by \langle O\rangle. ...
, we have a symmetry breaking to Z
2 ⋊
L × SU(2)R">U(4) × SU(2)L × SU(2)RZ
2, i.e. the
Pati–Salam model
In physics, the Pati–Salam model is a Grand Unified Theory (GUT) proposed in 1974 by Abdus Salam and Jogesh Pati. Like other GUTs, its goal is to explain the seeming arbitrariness and complexity of the Standard Model in terms of a simpler, more f ...
with a Z
2 left-right symmetry
A chiral phenomenon is one that is not identical to its mirror image (see the article on mathematical chirality). The spin of a particle may be used to define a handedness, or helicity, for that particle, which, in the case of a massless particle, ...
.
If we have a 45
H instead, this Higgs field can acquire any VEV in a two dimensional subspace without breaking the standard model. Depending on the direction of this linear combination, we can break the symmetry to SU(5)×U(1), the
Georgi–Glashow model
In particle physics, the Georgi–Glashow model is a particular grand unified theory (GUT) proposed by Howard Georgi and Sheldon Glashow in 1974. In this model the standard model gauge groups SU(3) × SU(2) × U(1) are combined into a single ...
with a U(1) (diag(1,1,1,1,1,-1,-1,-1,-1,-1)),
flipped SU(5)
The Flipped SU(5) model is a grand unified theory (GUT) first contemplated by Stephen Barr in 1982, and by Dimitri Nanopoulos and others in 1984. Ignatios Antoniadis, John Ellis, John Hagelin, and Dimitri Nanopoulos developed the supersymmetr ...
(diag(1,1,1,-1,-1,-1,-1,-1,1,1)), SU(4)×SU(2)×U(1) (diag(0,0,0,1,1,0,0,0,-1,-1)), the minimal
left-right model
A chiral phenomenon is one that is not identical to its mirror image (see the article on mathematical chirality). The spin of a particle may be used to define a handedness, or helicity, for that particle, which, in the case of a massless particle, ...
(diag(1,1,1,0,0,-1,-1,-1,0,0)) or SU(3)×SU(2)×U(1)×U(1) for any other nonzero VEV.
The choice diag(1,1,1,0,0,-1,-1,-1,0,0) is called the
Dimopoulos-Wilczek mechanism aka the "missing VEV mechanism" and it is proportional to
B−L.
The choice of a 16
H and a
breaks the gauge group down to the Georgi–Glashow SU(5). The same comment applies to the choice of a 126
H and a
.
It is the combination of BOTH a 45/54 and a 16/
or 126/
which breaks SO(10) down to the
Standard Model.
The electroweak Higgs and the doublet-triplet splitting problem
The electroweak Higgs doublets come from an SO(10) 10
H. Unfortunately, this same 10 also contains triplets. The masses of the doublets have to be stabilized at the electroweak scale, which is many orders of magnitude smaller than the GUT scale whereas the triplets have to be really heavy in order to prevent triplet-mediated
proton decay
In particle physics, proton decay is a hypothetical form of particle decay in which the proton decays into lighter subatomic particles, such as a neutral pion and a positron. The proton decay hypothesis was first formulated by Andrei Sakharov ...
s. See
doublet-triplet splitting problem.
Among the solutions for it is the Dimopoulos-Wilczek mechanism, or the choice of diag(1,1,1,0,0,-1,-1,-1,0,0) of <45>. Unfortunately, this is not stable once the 16/
or 126/
sector interacts with the 45 sector.
[*]
Content
Matter
The matter representations come in three copies (generations) of the 16 representation. The
Yukawa coupling
In particle physics, Yukawa's interaction or Yukawa coupling, named after Hideki Yukawa, is an interaction between particles according to the Yukawa potential. Specifically, it is a scalar field (or pseudoscalar field) and a Dirac field of th ...
is 10
H 16
f 16
f. This includes a right-handed neutrino. One may either include three copies of
singlet representations and a Yukawa coupling
(the "double seesaw mechanism"); or else, add the Yukawa interaction
or add the
nonrenormalizable coupling
. See
seesaw mechanism In the theory of grand unification of particle physics, and, in particular, in theories of neutrino masses and neutrino oscillation, the seesaw mechanism is a generic model used to understand the relative sizes of observed neutrino masses, of the ...
.
The 16
f field branches to
χ">U(5)×U(1)χZ
5 and SU(4) × SU(2)
L × SU(2)
R as
:
:
Gauge fields
The 45 field branches to
χ">U(5)×U(1)χZ
5 and SU(4) × SU(2)
L × SU(2)
R as
:
:
and to the standard model
C × SU(2)L × U(1)Y">U(3)C × SU(2)L × U(1)YZ
6 as
:
The four lines are the SU(3)
C, SU(2)
L, and U(1)
B−L bosons; the
SU(5) leptoquarks which don't mutate
X charge; the
Pati-Salam leptoquarks and SU(2)
R bosons; and the new SO(10) leptoquarks. (The standard
electroweak
In particle physics, the electroweak interaction or electroweak force is the unified description of two of the four known fundamental interactions of nature: electromagnetism and the weak interaction. Although these two forces appear very differe ...
U(1)
Y is a linear combination of the bosons.)
Proton decay
X bosons and Higgs bosons." widths="125px" heights="150px" perrow="3">
Image:Proton_decay2.svg, Dimension 6 proton decay mediated by the ''X'' boson in SU(5) GUT
Image:proton decay3.svg, Dimension 6 proton decay mediated by the ''X'' boson in flipped SU(5) GUT
Note that SO(10) contains both the Georgi–Glashow SU(5) and flipped SU(5).
Anomaly free from local and global anomalies
It has been long known that the SO(10) model is free from all perturbative local anomalies, computable by Feynman diagrams. However, it only became clear in 2018 that the SO(10) model is also free from all
nonperturbative global anomalies on non-spin manifolds --- an important rule for confirming the consistency of SO(10) grand unified theory, with a Spin(10) gauge group and chiral fermions in the 16-dimensional spinor representations, defined on
non-spin manifolds.
See also
*
Flipped SO(10)
Notes
{{reflist
Grand Unified Theory