$SU(2)$ and its representations












2














Does the Lie-Algebra of $SU(2)$ always have 3 generators? Because I'm reading about different representations of $SU(2)$ as $2times2$, $3times3$, $4times4$ matrices etc. But I guess that even if we are looking at $7times7$ matrix representation of $SU(2)$ we only need $3$ such matrices corresponding to the $3$ generators right?



And if we have a representation by say $7times 7$ matrices, is it not possible by using similarity transformations to find an $3-$dimensional invariant subspace corresponding to these $3$ linear operators? Then what point is it to look for higher representations of $SU(2)$ then just $3times 3$ real matrices?










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  • 2




    If I understand you correctly, you are correct in your first guess: the image of the representation is (unless it's trivial) isomorphic to $SU(2)$ (and the analogous fact would hold true for any simple Lie algebra) and hence has three generators. However, with your final question, you seem to be basically asking what is the point of representation theory, if the represented group or Lie algebra is already given as a matrix group or Lie algebra?. That's a valid but very broad question which has nothing to do with $SU(2)$ in particular.
    – Torsten Schoeneberg
    yesterday








  • 1




    And let me add to my above comment that that exact question was asked, and got some very insightful answers, on MathOverflow: mathoverflow.net/q/153740/27465
    – Torsten Schoeneberg
    yesterday










  • It is not true that every $7$-dimensional representation of SU$(2)$ has a $3$-dimensional invariant subspace. SU$(2)$ has an irreducible $7$-dimensional representation.
    – Andreas Blass
    22 hours ago










  • ok, so given any set of 3 linearly independent 7x7 matrices, it is not true that you by a change of coordinates can find an invariant subspace with a lower dimension then 7? I find this interesting because then it makes a big difference by how you choose your set of 3 linearly independent matrices. Because I could obviously choose them such that there is an invariant 3 dimensional subspace which they act on.
    – Higgsino
    2 hours ago
















2














Does the Lie-Algebra of $SU(2)$ always have 3 generators? Because I'm reading about different representations of $SU(2)$ as $2times2$, $3times3$, $4times4$ matrices etc. But I guess that even if we are looking at $7times7$ matrix representation of $SU(2)$ we only need $3$ such matrices corresponding to the $3$ generators right?



And if we have a representation by say $7times 7$ matrices, is it not possible by using similarity transformations to find an $3-$dimensional invariant subspace corresponding to these $3$ linear operators? Then what point is it to look for higher representations of $SU(2)$ then just $3times 3$ real matrices?










share|cite|improve this question




















  • 2




    If I understand you correctly, you are correct in your first guess: the image of the representation is (unless it's trivial) isomorphic to $SU(2)$ (and the analogous fact would hold true for any simple Lie algebra) and hence has three generators. However, with your final question, you seem to be basically asking what is the point of representation theory, if the represented group or Lie algebra is already given as a matrix group or Lie algebra?. That's a valid but very broad question which has nothing to do with $SU(2)$ in particular.
    – Torsten Schoeneberg
    yesterday








  • 1




    And let me add to my above comment that that exact question was asked, and got some very insightful answers, on MathOverflow: mathoverflow.net/q/153740/27465
    – Torsten Schoeneberg
    yesterday










  • It is not true that every $7$-dimensional representation of SU$(2)$ has a $3$-dimensional invariant subspace. SU$(2)$ has an irreducible $7$-dimensional representation.
    – Andreas Blass
    22 hours ago










  • ok, so given any set of 3 linearly independent 7x7 matrices, it is not true that you by a change of coordinates can find an invariant subspace with a lower dimension then 7? I find this interesting because then it makes a big difference by how you choose your set of 3 linearly independent matrices. Because I could obviously choose them such that there is an invariant 3 dimensional subspace which they act on.
    – Higgsino
    2 hours ago














2












2








2


1





Does the Lie-Algebra of $SU(2)$ always have 3 generators? Because I'm reading about different representations of $SU(2)$ as $2times2$, $3times3$, $4times4$ matrices etc. But I guess that even if we are looking at $7times7$ matrix representation of $SU(2)$ we only need $3$ such matrices corresponding to the $3$ generators right?



And if we have a representation by say $7times 7$ matrices, is it not possible by using similarity transformations to find an $3-$dimensional invariant subspace corresponding to these $3$ linear operators? Then what point is it to look for higher representations of $SU(2)$ then just $3times 3$ real matrices?










share|cite|improve this question















Does the Lie-Algebra of $SU(2)$ always have 3 generators? Because I'm reading about different representations of $SU(2)$ as $2times2$, $3times3$, $4times4$ matrices etc. But I guess that even if we are looking at $7times7$ matrix representation of $SU(2)$ we only need $3$ such matrices corresponding to the $3$ generators right?



And if we have a representation by say $7times 7$ matrices, is it not possible by using similarity transformations to find an $3-$dimensional invariant subspace corresponding to these $3$ linear operators? Then what point is it to look for higher representations of $SU(2)$ then just $3times 3$ real matrices?







lie-algebras






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share|cite|improve this question













share|cite|improve this question




share|cite|improve this question








edited yesterday









Torsten Schoeneberg

3,8762833




3,8762833










asked yesterday









Higgsino

375




375








  • 2




    If I understand you correctly, you are correct in your first guess: the image of the representation is (unless it's trivial) isomorphic to $SU(2)$ (and the analogous fact would hold true for any simple Lie algebra) and hence has three generators. However, with your final question, you seem to be basically asking what is the point of representation theory, if the represented group or Lie algebra is already given as a matrix group or Lie algebra?. That's a valid but very broad question which has nothing to do with $SU(2)$ in particular.
    – Torsten Schoeneberg
    yesterday








  • 1




    And let me add to my above comment that that exact question was asked, and got some very insightful answers, on MathOverflow: mathoverflow.net/q/153740/27465
    – Torsten Schoeneberg
    yesterday










  • It is not true that every $7$-dimensional representation of SU$(2)$ has a $3$-dimensional invariant subspace. SU$(2)$ has an irreducible $7$-dimensional representation.
    – Andreas Blass
    22 hours ago










  • ok, so given any set of 3 linearly independent 7x7 matrices, it is not true that you by a change of coordinates can find an invariant subspace with a lower dimension then 7? I find this interesting because then it makes a big difference by how you choose your set of 3 linearly independent matrices. Because I could obviously choose them such that there is an invariant 3 dimensional subspace which they act on.
    – Higgsino
    2 hours ago














  • 2




    If I understand you correctly, you are correct in your first guess: the image of the representation is (unless it's trivial) isomorphic to $SU(2)$ (and the analogous fact would hold true for any simple Lie algebra) and hence has three generators. However, with your final question, you seem to be basically asking what is the point of representation theory, if the represented group or Lie algebra is already given as a matrix group or Lie algebra?. That's a valid but very broad question which has nothing to do with $SU(2)$ in particular.
    – Torsten Schoeneberg
    yesterday








  • 1




    And let me add to my above comment that that exact question was asked, and got some very insightful answers, on MathOverflow: mathoverflow.net/q/153740/27465
    – Torsten Schoeneberg
    yesterday










  • It is not true that every $7$-dimensional representation of SU$(2)$ has a $3$-dimensional invariant subspace. SU$(2)$ has an irreducible $7$-dimensional representation.
    – Andreas Blass
    22 hours ago










  • ok, so given any set of 3 linearly independent 7x7 matrices, it is not true that you by a change of coordinates can find an invariant subspace with a lower dimension then 7? I find this interesting because then it makes a big difference by how you choose your set of 3 linearly independent matrices. Because I could obviously choose them such that there is an invariant 3 dimensional subspace which they act on.
    – Higgsino
    2 hours ago








2




2




If I understand you correctly, you are correct in your first guess: the image of the representation is (unless it's trivial) isomorphic to $SU(2)$ (and the analogous fact would hold true for any simple Lie algebra) and hence has three generators. However, with your final question, you seem to be basically asking what is the point of representation theory, if the represented group or Lie algebra is already given as a matrix group or Lie algebra?. That's a valid but very broad question which has nothing to do with $SU(2)$ in particular.
– Torsten Schoeneberg
yesterday






If I understand you correctly, you are correct in your first guess: the image of the representation is (unless it's trivial) isomorphic to $SU(2)$ (and the analogous fact would hold true for any simple Lie algebra) and hence has three generators. However, with your final question, you seem to be basically asking what is the point of representation theory, if the represented group or Lie algebra is already given as a matrix group or Lie algebra?. That's a valid but very broad question which has nothing to do with $SU(2)$ in particular.
– Torsten Schoeneberg
yesterday






1




1




And let me add to my above comment that that exact question was asked, and got some very insightful answers, on MathOverflow: mathoverflow.net/q/153740/27465
– Torsten Schoeneberg
yesterday




And let me add to my above comment that that exact question was asked, and got some very insightful answers, on MathOverflow: mathoverflow.net/q/153740/27465
– Torsten Schoeneberg
yesterday












It is not true that every $7$-dimensional representation of SU$(2)$ has a $3$-dimensional invariant subspace. SU$(2)$ has an irreducible $7$-dimensional representation.
– Andreas Blass
22 hours ago




It is not true that every $7$-dimensional representation of SU$(2)$ has a $3$-dimensional invariant subspace. SU$(2)$ has an irreducible $7$-dimensional representation.
– Andreas Blass
22 hours ago












ok, so given any set of 3 linearly independent 7x7 matrices, it is not true that you by a change of coordinates can find an invariant subspace with a lower dimension then 7? I find this interesting because then it makes a big difference by how you choose your set of 3 linearly independent matrices. Because I could obviously choose them such that there is an invariant 3 dimensional subspace which they act on.
– Higgsino
2 hours ago




ok, so given any set of 3 linearly independent 7x7 matrices, it is not true that you by a change of coordinates can find an invariant subspace with a lower dimension then 7? I find this interesting because then it makes a big difference by how you choose your set of 3 linearly independent matrices. Because I could obviously choose them such that there is an invariant 3 dimensional subspace which they act on.
– Higgsino
2 hours ago










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