What is Su(2): Definition and 120 Discussions

In mathematics, the special unitary group of degree n, denoted SU(n), is the Lie group of n × n unitary matrices with determinant 1.
The more general unitary matrices may have complex determinants with absolute value 1, rather than real 1 in the special case.
The group operation is matrix multiplication. The special unitary group is a subgroup of the unitary group U(n), consisting of all n×n unitary matrices. As a compact classical group, U(n) is the group that preserves the standard inner product on





C


n




{\displaystyle \mathbb {C} ^{n}}
. It is itself a subgroup of the general linear group,



SU

(
n
)

U

(
n
)

GL

(
n
,

C

)


{\displaystyle \operatorname {SU} (n)\subset \operatorname {U} (n)\subset \operatorname {GL} (n,\mathbb {C} )}
.
The SU(n) groups find wide application in the Standard Model of particle physics, especially SU(2) in the electroweak interaction and SU(3) in quantum chromodynamics.The simplest case, SU(1), is the trivial group, having only a single element. The group SU(2) is isomorphic to the group of quaternions of norm 1, and is thus diffeomorphic to the 3-sphere. Since unit quaternions can be used to represent rotations in 3-dimensional space (up to sign), there is a surjective homomorphism from SU(2) to the rotation group SO(3) whose kernel is {+I, −I}. SU(2) is also identical to one of the symmetry groups of spinors, Spin(3), that enables a spinor presentation of rotations.

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  1. M

    SU(2) operators to SU(N) generators for Heisenberg XXX

    A paper I'm reading says "Our starting point is the SU(N) generalization of the quantum Heisenberg model: H=-J\sum_{\langle i,j \rangle}H_{ij}=\frac{J}{N}\sum_{\langle i,j \rangle}\sum_{\alpha , \beta =1}^N J_{\beta}^{\alpha}(i)J_{\alpha}^{\beta}(j) The J_{\beta}^{\alpha} are the generators of...
  2. Xenosum

    Lorentz Group = SU(2) x SU(2)?

    In Ryder's Quantum Field Theory it is shown that the Lie Algebra associated with the Lorentz group may be written as \begin{eqnarray} \begin{aligned}\left[ A_x , A_y \right] = iA_z \text{ and cyclic perms,} \\ \left[ B_x , B_y \right] = iB_z \text{ and cyclic perms,} \\ \left[ A_i ,B_j...
  3. Xenosum

    SU(2) Spin-1/2 Representation Question

    In Howard Georgi's Lie Algebras in Particle Physics (and other texts I'm sure), it is determined that the Pauli matrices, \sigma_1 \sigma_2 and \sigma_3, in 2 dimensions form an irreducible representation of the SU(2) algebra. This is a bit confusion to me. The SU(2) algebra is given by...
  4. ChrisVer

    Understanding SU(2) Adjoint Repr of Algebra

    Well I am trying to understand the adjoint representation of the su(2) algebra. We know that the algebra is given: [X_{i}, X_{j}]= ε_{ij}^{k} X_{k} (maybe I forgot an i but I am not sure). The adjoint representation is then ( in the matrix representation) defined by the ε_{ijk} structure...
  5. Q

    Symmetry Groups of the Standard Model: SU(3) x SU(2) x U(1)

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  6. C

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  7. C

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  8. lonewolf219

    Why is this invariant under U(1) X SU(2) ?

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  9. lonewolf219

    What is common theme between U(1) SU(2) and SU(3)

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  10. lonewolf219

    How to find 3D representation of SU(2)

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  11. E

    How Is the Volume of SU(2) Calculated?

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  12. P

    SU(2) symmetry of the ammonia molecule?

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  13. L

    Proving Pauli Matrices are Generators of SU(2)

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  14. Y

    Solve SU(2) Parametrization Problem w/ Westra's PDF

    I have a trivial mathematical problem with SU(2) parametrization. In www.mat.univie.ac.at/~westra/so3su2.pdf , section 3, there is a sentence starting with "We first assume b = 0 and find then(...)". My question is: doesn't assuming that b = 0 reduce generality of our parametrization? If not, why?
  15. F

    SU(2) a double cover for Lorentz group?

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  16. popbatman

    Left and right invariant metric on SU(2)

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  17. K

    SU(2) generators in j=1, and pauli uncertainty

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  18. C

    The weak SU(2) instanton proposed by Belavin Polyakov Schwarz and Tyupkin

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  19. naima

    Length of roots in su(2) su(3) and other Lie algebras.

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  20. Q

    Finding the 3x3 Matrix Representation of SU(2)

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  21. L

    SU(2) axial and vector subgroups

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  22. C

    SU(2) Pure YM on R^4: Derivation and Solutions

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  23. R

    Singlets and Doublets in SU(2)

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  24. Matterwave

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  25. N

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  26. N

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  27. A

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  28. L

    Real vs. Complex: Understanding the Difference Between su(2) and sl(2) Algebras

    one standard basis of su(2) are the 2x2 matrices (i 0;0 -i), (0 i; i 0), (0 1;-1 0) whereas the standard basis of sl(2) are (1 ; 0 -1), (0 1; 0 0), (0 0;-1 0) Why then is su(2) called a real algebra, but not sl(2)? thanks
  29. marcus

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    Increasingly QG is being done with a q-deformed symmetry group: replacing SU(2) by the quantum group SUq(2). What do you see as the intuitive basis for this? One intuitive justification is that in a universe with a minimum measurable size and an a maximum distance to horizon there is an...
  30. K

    Local SU(2) Gauge Transformations

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  31. T

    Custodial SU(2) approximate symmetry

    what is meant by the custodial SU(2) approximate symmetry as a 5, a 3? it is always mentioned in the Higgs triplet, charged higgs context.
  32. L

    Ryder: QFT: 1985: pp. 34-36: SU(2) and O(3)

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  33. T

    Can neutrino mass eigenstate couple to the group of SU(2)

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  34. tom.stoer

    Exploring the Role of SU(2) in Spin Networks

    In the context of LQG spin networks are derived based on Ashtekar's formulation implementing local SU(2) gauge symmetry in tangent space. Here SU(2) and 3+1 dim. spacetime are deeply related. Forgetting about this derivation and starting with spin networks, talking about dimensions does no...
  35. M

    SU(2) as representation of SO(3)

    The SU(2) and SO(3) groups are homomorphic groups. Can we say that the SU(2) group is representation of SO(3) and vice versa (SU(2) representation of SO(3))? Is a representation R of some group G a group too? If so, is it true that G is representation of R?
  36. W

    Parametrization of su(2) group

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  37. W

    How to probe the group SU(2) is simply connected?

    why group SO(3) is not any good reference on the relation of SU(2) and SO(3)?
  38. B

    Exploring the Isomorphism Between SU(2) and SO(3) Groups

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  39. H

    How Does the Casimir Operator Function in SU(2) Algebra?

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  40. H

    SU(2) symmetric/antisymmetric combination using young tableaux

    I am pretty confused about how to construct states to make symmetric / anti-symmetric combination so I would like to ask some questions. For example, for SU(2), states of three spin-half particles can be decomposed as 2 x 2 x 2 = 4 + 2 + 2, 3 irreducible combination with dim 4, 2, 2. -if...
  41. J

    I want a good refrence for su(2) and it's aplecation

    I want a good reference (not difficult) for su(2) for Its representaion Its lie algebra It's applications in angular momentum
  42. V

    Is the given Pauli matrix in SU(2)?

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  43. R

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  44. O

    Pauli Matrices as generators of SU(2)

    Why is it that the Pauli spin matrices ( the operators of quantum spin in x,y,z) are the generators of a representation of SU(2)? I understand that we use the 2X2 representation as it is the simplest, but why is it that spin obeys this SU(2) symmetry and how is it that we come up with the Pauli...
  45. W

    Finding the matrix A such that, exp(sA) is in SU(2)

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  46. A

    Commutation Relations and Symmetries for SU(2)

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  47. C

    Why can't SU(2) be the gauge group of electroweak theory?

    I know that there are many reasons why SU(2) can't be the electroweak gauge group, but I want to have some clarifications about the following one, that disergads neutral currents: in this case the currents are (considering only the lepton sector of the first generation)...
  48. R

    SU(2) in Standard Model and SUSY extensions

    If you have doublet Q=(u,d) , and want to give the u-quark mass, you have to connect it to the Higgs VEV H=(\nu,0) doublet through the adjoint opertion: H^{\dagger i}Q_i Connecting H and Q through the Levi-Civita symbol e_{ij} : e^{ji} H_{ i}Q_j results in d-quark mass, not u-quark...
  49. F

    What does SU(3) x SU(2) x U(1) means?

    Hi, 1: I just want to ask that what does SU(3) x SU(2) x U(1) means? and when a lagrangian is invariant under SU(3) x SU(2) x U(1) what does that mean? Does it mean that lagrangian L is invariant under SU(3) and then SU(2) and then U(1)? so if one wants to check SU(3) invariance of L...
  50. B

    Physical interpretation of charges and casimirs for SU(2) and SU(3)

    For SU(2) rotational invariance there is a clear interpretation of what all the generators mean. They correspond to operators whose eigenvalues are some observable. The noether charges correspond to the x,y and z components of angular momentum. The casimir is just the total angular momentum...
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