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Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective? Wrong by an answer of Jeremy Rickard.

2.In case every simple module is cool, is every indecomposable non-projective module cool? Wrong by an answer of Jeremy Rickard.

3.What are classes of selfinjective algebras such that every simple (or every indecomposable) module is cool and such that the algebra is not periodic?

4.In case every simple module is cool and the algebra is selfinjective, is every indecomposable non-projective module cool?

Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective?

2.In case every simple module is cool, is every indecomposable non-projective module cool?

3.What are classes of algebras such that every simple (or every indecomposable) module is cool and such that the algebra is not periodic?

Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective? Wrong by an answer of Jeremy Rickard.

2.In case every simple module is cool, is every indecomposable non-projective module cool? Wrong by an answer of Jeremy Rickard.

3.What are classes of selfinjective algebras such that every simple (or every indecomposable) module is cool and such that the algebra is not periodic?

4.In case every simple module is cool and the algebra is selfinjective, is every indecomposable non-projective module cool?

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Mare
Mare
  • 26.5k
  • 6
  • 25
  • 104

Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective?

2.In case every simple module is cool, is every indecomposable non-projective module cool?

3.What are classes of algebras such that every simple (or every indecomposable) module is cool and such that the algebra is not periodic?

Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective?

2.In case every simple module is cool, is every indecomposable non-projective module cool?

Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective?

2.In case every simple module is cool, is every indecomposable non-projective module cool?

3.What are classes of algebras such that every simple (or every indecomposable) module is cool and such that the algebra is not periodic?

Source Link
Mare
Mare
  • 26.5k
  • 6
  • 25
  • 104

On some modules with bounded syzygies

Let A be a finite dimensional algebra. Call an indecomposable module M cool in case $\Omega^{i}(M)$ is nonzero and indecomposable for every $i \geq 1$ and $dim(\Omega^{i}(M))$ is bounded.

Questions:

  1. In case every simple module is cool, is the algebra selfinjective?

2.In case every simple module is cool, is every indecomposable non-projective module cool?