Knot at Lunch, July 5, 2007: Difference between revisions

Invitation

Dear Knot at Lunch People,

We will have our next summer lunch on Thursday July 5, 2007, at the usual place, Bahen 6180, at 12 noon.

As always, please bring brown-bag lunch and fresh ideas. I'm not sure what we will be talking about; perhaps just continue with last week's topics.

As always, if you know anyone I should add to this mailing list or if you wish to be removed from this mailing list please let me know. To prevent junk accumulation in mailboxes, I will actively remove inactive people unless they request otherwise.

Best,

Dror.

Some Content

Definition. Let ${\displaystyle \varphi :B\to S}$ be a group homomorphism; denote its action by ${\displaystyle \beta \mapsto {\bar {\beta }}}$; i.e., let ${\displaystyle {\bar {\beta }}:=\varphi (\beta )}$ for every ${\displaystyle \beta \in B}$. Let "the virtualization ${\displaystyle VB}$ of ${\displaystyle B}$", or more precisely, "the virtualization ${\displaystyle VB_{\varphi }}$ of ${\displaystyle B}$ with respect to ${\displaystyle \varphi }$", be the following quotient of the free product ${\displaystyle B\star S}$ of ${\displaystyle B}$ and ${\displaystyle S}$:

${\displaystyle VB:=B\star S\left/{\bar {\beta }}\beta _{1}=\beta _{2}{\bar {\beta }}\right.}$ whenever ${\displaystyle \beta \beta _{1}=\beta _{2}\beta }$ in ${\displaystyle B}$.

(Though note that we do not mod out by ${\displaystyle \beta {\bar {\beta }}_{1}={\bar {\beta }}_{2}\beta }$ under the same circumstances).

It is clear that ${\displaystyle \varphi }$ extends to a homomorphism ${\displaystyle {\hat {\varphi }}:VB\to S}$. Let "the pure virtualization ${\displaystyle PVB}$ of ${\displaystyle B}$" be the kernel of that homomorphism:

${\displaystyle PVB:=\ker {\hat {\varphi }}\subset VB}$.

Question. Is this definition at all interesting? More precisely:

• If ${\displaystyle B}$ is a braid group and ${\displaystyle S}$ is the corresponding symmetric group, can ${\displaystyle VB}$ be reasonably identified with "virtual braids"?
• Does the ${\displaystyle PVB}$ that we get here agree with ${\displaystyle PVB_{n}}$ of last time?
• Is this definition encountered anywhere else in mathematics?
• Are there other examples in which this definition is interesting?
• Do we gain any new insight by using this definition?