Welcome to the 4th New Zealand Number Theory Workshop 2018
We will host the 4th NZ Number Theory Workshop at Victoria University of Wellington on 16 April 2018, organized by Byoung Du (B.D.) Kim (email).
The workshop is open to everyone, and if you would like to participate, please email the organizer above.
This one day program will be followed by dinner, which will be somewhere in CBD, Wellington.
Title: There are no transcendental Brauer-Manin obstructions on abelian varieties
Abstract: Since work of Manin in the 1970's it has been known that Brauer group of a variety over a number field can be used to obtain information about the rational points on said variety. The Brauer group has a subgroup of "algebraic" elements which are typically much easier to understand, and transcendental elements which are much trickier. For general varieties there can be information encoded in these transcendental elements that is not available from the algebraic subgroup. I will explain why this is not the case for (torsors under) abelian varieties. This had been known for some time, conditionally on a widely believed conjecture (finiteness of Tate-Shafarevich groups of abelian varieties). My result is unconditional.
Title: A non-abelian analogue of a theorem of Emerton,
Pollack and Weston
Title: Real zeroes of Dirichlet L-functions
Abstract: If all is right with the world then the Generalised Riemann Hypothesis is true. Done: conference over, and book an early ticket to the Fields ceremony!
The hardest nuts to crack are Dirichlet L-functions L(s, χ), where χ is a real character modulo q. Harder still is the case when χ is even. I outline some work (joint with Dave Platt) on the problem.
Title: Distinguishing curves and factoring polynomials.
Abstract: The task of factoring polynomials modulo a prime has a
satisfactory, usually efficient, solution which depends on random
choices and can be slow if we are very unlucky. An idea of Kayal
and Poonen would remedy this situation if a family of algebraic
curves is found, whose members can be distinguished by their zeta
functions. We will explain this and set it in a general context of
distinguishing algebraic curves by L-functions. In particular,
we present a family of curves that allows us to be 99.999% confident
that we have a deterministic polynomial time algorithm for factoring
polynomials modulo a prime. Joint work with A. Sutherland.
Shaun Cooper Massey University
Brendan Creutz The University of Canterbury
Daniel Delbourgo The University of Waikato
Byoung Du Kim Victoria University of Wellington
Jeroen Jan Schillewaert The University of Auckland
Timothy Trudgian UNSW Canberra at the Australian Defence Force Academy