


Théorie des modèles
Org: Patrick Speissegger (McMaster) [PDF]
 MATTHIAS ASCHENBRENNER, University of Illinois at Chicago
Asymptotic differential algebra
[PDF] 
I will report on recent progress in the joint project with van den
Dries and van der Hoeven mentioned in the title of the talk.
 OZLEM BEYARSLAN, University of Illinois at Chicago
Pseudofinite Fields and Tournaments
[PDF] 
A tournament on a set X is an irreflexive binary relation R Ì X×X such that, for every x ¹ y in X, exactly one of
R(x,y) and R(y,x) holds. A pseudofinite field F interprets a
tournament by the formula $z : (xy)=z^{2}. The automorphism
group of any field interpreting a 0definable tournament can not
have any involutions.
To generalize this observation, we will examine the effects of
interpreting such structures on the automorphism groups of certain
pseudofinite fields.
This is work in progress with Ehud Hrushovski.
 GREGORY CHERLIN, Rutgers University
Connected Groups of Finite Morley Rank: Structure
[PDF] 
We give a status report on the subject, with emphasis on recent
achievements and challenges.
 ALF DOLICH, McMaster University Hamilton, ON
Some Remarks on Weak Ominimality and Definable Completeness
[PDF] 
We consider to what extent the role played by weakly ominimal
theories among all densely ordered theories is analogous to the role
played by ominimal theories among the definably complete densely
ordered theories. In particular we ask whether certain results
indicating that any sufficiently wellbehaved definably complete
theory is ominimal or close to ominimal may be generalized by
dropping the assumption of definable completeness and weakening the
conclusion from "ominimal or close to ominimal" to "weakly
ominimal or close to weakly ominimal". We show through example
that this is not the case.
 DRAGOS GHIOCA, Department of Mathematics, McMaster University, 1280 Main
Street West, Hamilton, Ontario L8S 2N5
A generalization of the ManinMumford Theorem
[PDF] 
Let G be a semiabelian variety defined over a number field K. Let
X be a subvariety of G defined over K^{alg}. The
ManinMumford Theorem describes the intersection of X(K^{alg})
with the torsion subgroup G_{tor} of G. More precisely, if X
is an irreducible subvariety and X(K^{alg}) ÇG_{tor} is
Zariski dense in X, then X is a translate of an algebraic subgroup
of G by a torsion point. In the present talk we show that we obtain
the same conclusion about X assuming only that it contains a Zariski
dense set of points of small height. Because all torsion points of
G have height 0, we obtain that ManinMumford Theorem is a
particular case of the result we present. Finally, we present a
positive characteristic version of the ManinMumford Theorem in the
context of Drinfeld modules.
 DEIDRE HASKELL, McMaster University, 1280 Main St. W, Hamilton, ON L8P 2T4
Integraldefinite rational functions in theories of valued
fields
[PDF] 
An analogue for valued fields of Hilbert's Seventeenth Problem asks
for an algebraic characterisation of rational functions which map a
definable subset of the field into the valuation ring. In this talk,
I will describe a modeltheoretic solution to this problem which is
uniform across different theories of valued fields. I will apply it
to algebraically closed valued fields, real closed valued fields, and
model complete theories of difference and differential fields with a
valuation.
 TOBIAS KAISER, University of Regensburg, D93040 Regensburg
An ominimal version of the Riemann Mapping Theorem
[PDF] 
We show that the germ of a Riemann map (i.e., a biholomorphic
map from a simply connected domain in the complex plane onto the unit
ball) at an analytic corner of angle greater than 0 can be realized in
a certain quasianalytic class, used by Ilyashenko in his solution of
Hilbert's 16th problem. With this we are able to show that the
Riemann map from a simply connected domain which is semianalytic and
bounded, is definable in an ominimal structure under some condition
on the singularities of the domain.
 SALMA KUHLMANN, University of Saskatchewan, Department of Mathematics and
Statistics, McLean Hall, 106 Wiggins Road, Saskatoon, SK
S7N 5E6
Integer Parts and Complements to Valuation Rings of Ordered
Fields
[PDF] 
An integer part (IP for short) Z of an ordered field K is
a discretely ordered subring, with 1 as the least positive element,
and such that for every x Î K, there is a z Î Z such that z £ x < z+1. Mourgues and Ressayre establish the existence of an IP for
any real closed field K by showing that there is an order preserving
embedding j of K into the field of generalized power series
k((G)) such that j(K) is a truncation closed subfield (here
k is the residue field and G the value group of K). An IP of
K obtained in this way (i.e., from a truncation closed
embedding) is called a truncation integer part of K. IPs
appear naturally in model theoretic arithmetic, algebra and analysis;
e.g. Shepherdson showed that IPs of real closed fields are
precisely the models of a fragment of Peano Arithmetic called Open
Induction, whereas truncation IPs played a crucial role in Ressayre's
investigations of the model theory of the real exponential field. In
this talk, we analyze IPs from a valuation theoretic viewpoint and
summarize their main special features. We investigate their
connection to special (additive) complements of valuation rings of
ordered fields. This approach reveals new interesting valuation
theoretic properties of arbitrary valued fields (not just
ordered fields); depending on whether such special complements exist.
We discuss these properties and their implications, thereby giving an
intrinsic valuation theoretic interpretation of truncation closed
embeddings in fields of power series.
Joint work with F.V. Kuhlmann and A. Fornasiero.
 DAVID LIPPEL, Notre Dame, USA

 CHRIS MILLER, Ohio State, Columbus
A proper reduct of the real projective hierarchy that defines
sets in each projective level
[PDF] 
There exist closed E Í R such that (R,+,·,E) defines a Borel isomorph of (R,+,·,N), and so defines sets of every projective level, yet does
not define N, even when (R,+,·,E) is further
expanded by all subsets of every cartesian power of E.
Joint work with Harvey Friedman.
 PAUL POTGIETER, University of South Africa, PO Box 392, Preller Street,
Pretoria, South Africa, 0003
Nonstandard analysis, Hausdorff dimension and Brownian
motion
[PDF] 
In this paper we explore a nonstandard formulation of Hausdorff
dimension. By considering an adapted form of the counting measure
formulation of Lebesgue measure, we prove a nonstandard version of
Frostman's lemma and find that Hausdorff dimension can be computed
through a counting argument rather than by taking the infimum of a
sum of certain covers. This formulation is then applied to obtain a
simple proof of the doubling of the dimension of certain sets under
a Brownian motion. In addition, the fractal properties of the rapid
points of Brownian motion are explored using the new method,
strengthening a result of Orey and Taylor's.
 FERNANDO SANZ SÁNCHEZ, Universidad de Valladolid, Departamento de Álgebra,
Geometría y Topología, Facultad de Ciencias, E47005
VALLADOLID, Spain
Nonoscillating solutions of a differential equation and
Hardy fields
[PDF] 
Let j: x® j(x), x > a be a solution at
infinity of an algebraic differential equation of order n,
P(x,y,y¢,...,y^{(n)}) = 0. We establish a geometric criterion so
that the germ at infinity of j, together with that of the
identity function on R, belongs to a common Hardy field.
More precisely, under the hypothesis that ¶P/¶y^{(n)}( x,j(x),j¢(x),...,j^{(n)}(x) ) is
never zero, the criterion is the following nonoscillating property:
for any polynomial Q Î R [x,y,y¢,...,y^{(n2)}], the
function x® Q ( x,j(x),j¢(x),...,j^{(n2)}(x) ) has a definite sign for x >> 0. Immediate
applications for differential equations of order one or two are given.
 CAROL WOOD, Wesleyan University, Middletown, Connecticut, USA
Partial Differential Fields and Separation of Variables
[PDF] 
A result of Johnson, Reinhart and Rubel (1995) shows that, unlike the
one variable case, it is not possible in general to approximate
solutions to partial differential equations via finite transcendence
extensions. We indicate the relationship of this phenomenon to types
in the model theory of partial differential fields in characteristic
zero.

