Wiesława Nizioł


Directrice de recherche, CNRS

UMPA, École Normale Supérieure de Lyon
46, allée d'Italie
69007 Lyon
France

PHONE: (+33)4 72 72 84 45
EMAIL: wieslawa.niziol [a] ens-lyon.fr

Research Interests
Arithmetic algebraic geometry: p-adic Hodge theory, Galois representations, p-adic cohomology.
CV

Papers
On the cohomology of the affine space (with Pierre Colmez), preprint, 8 pages, June 2017.
Cohomologie p-adique de la tour de Drinfeld: le cas de la dimension 1 (with Pierre Colmez, Gabriel Dospinescu), preprint, 56 pages, April 2017.
On syntomic regulators I: constructions, preprint, 60 pages, June 2016.
Geometric syntomic cohomology and vector bundles on the Fargues-Fontaine curve, preprint, 26 pages, May 2016.
Syntomic cohomology and p-adic motivic cohomology (with Veronika Ertl), preprint, 27 pages, to appear in Algebraic Geometry.
On p-adic absolute Hodge cohomology and syntomic coefficients, I (with Frédéric Déglise), preprint, 40 pages, to appear in Comment. Math. Helv.
Syntomic complexes and p-adic nearby cycles (with Pierre Colmez), Invent. Math. 208 (2017), no.1, 1-108.
Syntomic cohomology and regulators for varieties over p-adic fields (with Jan Nekovář), Algebra Number Theory 10 (2016), no. 8, 1695–1790.
K-theory of log-schemes II: log-syntomic K-theory, Adv. Math 230 (2012), 1646–1672.
On uniqueness of p-adic period morphisms, Pure Appl. Math. Q. 5 (2009), no. 1, 163–212.
K-theory of log-schemes I, Doc. Math. 13 (2008), 505–551.
Semistable Conjecture via K-theory, Duke Math. J. 141 (2008), no. 1, 151–178.
p-adic motivic cohomology in arithmetic, International Congress of Mathematicians. Vol. II, 459–472, Eur. Math. Soc., Zürich, 206
Toric singularities: log-blow-ups and global resolutions, J. Algebraic Geom. 15 (2006), no. 1, 1–29.
Cohomology of crystalline smooth sheaves, Compositio Math. 129 (2001), no. 2, 123–147.
Crystalline Conjecture via K-theory, Ann. Sci. École Norm. Sup. (4) 31 (1998), no. 5, 659–681.
On the image of p-adic regulators, Invent. Math. 127 (1997), 375–400.
Duality in the cohomology of crystalline local systems, Compositio Math. 109 (1997), no. 1, 67–97.
Cohomology of crystalline representations, Duke Math. J. 71 (1993), no. 3, 747–791.
Talks
p-adic motivic cohomology in arithmetic geometry, slides of a talk given at ICM2006, Madrid.