torus bundle

In mathematics, in the sub-field of geometric topology, the torus bundle is a kind of 3-manifold. To obtain a torus bundle: let

f

be an orientation-preserving homeomorphism of the two-dimensional torus

T

to itself. Then the three-manifold

M(f)

is obtained by

taking the Cartesian product of $T$ and the unit interval and
gluing one component of the boundary of the resulting manifold to the other boundary component via the map $f$ .

Then

M(f)

is the torus bundle with monodromy

f

. For example, if

f

is the identity map (i.e., the map which fixes every point of the torus) then the torus bundle

M(f)

is the three-torus: the Cartesian product of three circles. Seeing the possible kinds of torus bundles in more detail requires an understanding of William Thurston's Geometrization program. Briefly, if

f

is finite order, then the manifold

M(f)

has Euclidean geometry. If

f

is a power of a Dehn twist then

M(f)

has Nil geometry. Finally, if

f

is an Anosov map then the resulting three-manifold has Sol geometry. These three cases exactly correspond to the three possibilities for the absolute value of the trace of the action of

f

on the homology of the torus: either less than two, equal to two, or greater than two.

References

Anyone seeking more information on this subject, presented in an elementary way, may consult Jeff Weeks' book The Shape of Space.

<< Previous

Word Browser

Next >>

pepper creek
star of the county down
murray silverstein
modeline
pepper creek (delaware)
anz new zealand
tikanga maori
critical graph
wendell berry
smuggler's run
permanent guest host

fort assiniboine
the man show
later liang dynasty
wtsp
itzhak sadeh
jaganatha
fernando l. ribas dominicci
marganus ii
lexus gs
service la franaise
enniaunus

idvallo
cloneproof schwartz sequential dropping
runo
gerennus
mange
catellus
millus
porrex ii
cherin
fort zeelandia (paramaribo)
pocomoke river

fulgenius
edadus
bejam
andragius
urianus
fort zeelandia (taiwan)
eliud
cledaucus
clotenus
pedometer
gurgintius