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Whitney equisingularity of families of surfaces in ℂ3

Published online by Cambridge University Press:  15 January 2018

M.A.S. RUAS  and
O.N. SILVA
M.A.S. RUAS
Affiliation:
Universidade de São Paulo - ICMC, Caixa Postal 668, 13560-970 São Carlos (SP), Brazil. e-mail: [email protected]
O.N. SILVA
Affiliation:
Universidad Nacional Autónoma de México, Instituto de Matemáticas, 62210, Cuernavaca (Mor), México. e-mail: [email protected]
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Abstract

In this paper, we study families of singular surfaces in ℂ3 parametrised by $\mathcal {A}$-finitely determined map germs. We consider the topological triviality and Whitney equisingularity of an unfolding F of a finitely determined map germ f : (ℂ2, 0) → (ℂ3, 0). We investigate the following question: topological triviality implies Whitney equisingularity of the unfolding F? We provide a complete answer to this question, by giving counterexamples showing how the conjecture can be false.

Type
Research Article
Information
Mathematical Proceedings of the Cambridge Philosophical Society , Volume 166 , Issue 2 , March 2019 , pp. 353 - 369
Copyright
Copyright © Cambridge Philosophical Society 2018 

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References

REFERENCES

[1] Callejas Bedregal, R., Houston, K. and Ruas, M.A.S. Topological triviality of families of singular surfaces. Preprint, arXiv:math/0611699v1 [math.CV] (2006).Google Scholar
[2] de Bobadilla, J. Fernández and Pe Pereira, M. Equisingularity at the normalisation. J. Topol. 88 (2008), 879909.Google Scholar
[3] Damon, J. Topological triviality and versality for subgroups of A and K II. Sufficient conditions and applications. Nonlinearity 5 (1992), 373412.Google Scholar
[4] Gaffney, T. Polar multiplicities and equisingularity of map germs. Topology 32 (1993), 185223.Google Scholar
[5] Gibson, C. G., Wirthmüller, K., du Plessis, A. A. and Looijenga, E. J. N. Topological stability of smooth mappings. Springer LNM. 552 (1976), 7188.Google Scholar
[6] Hernandes, M. E., Miranda, A. J. and Peñafort-Sanchis, G. A presentation matrix algorithm for f$\mathcal {O}$X,x. Preprint (2015).Google Scholar
[7] Marar, W.L. and Mond, D. Multiple point schemes for corank 1 maps. J. London Math. Soc. 39 (1989), 553567.Google Scholar
[8] Marar, W. L. and Nuño–Ballesteros, J. J. Slicing corank 1 map germs from ℂ2 to ℂ3. Quart. J. Math. 65 (2014), 13751395.Google Scholar
[9] Marar, W. L., Nuño-Ballesteros, J. J. and Peñafort–Sanchis, G. Double point curves for corank 2 map germs from ℂ2 to ℂ3. Topology Appl. 159 (2012), 526536.Google Scholar
[10] Miranda, A. J. https://sites.google.com/site/aldicio/publicacoes.Google Scholar
[11] Mond, D. On the classification of germs of maps from ℝ2 to ℝ3. Proc. London Math. Soc. 50 (1985), 333369.Google Scholar
[12] Mond, D. Some remarks on the geometry and classification of germs of map from surfaces to 3-space. Topology 26 (1987), 361383.Google Scholar
[13] Mond, D. and Pellikaan, R. Fitting ideals and multiple points of analytic mappings. In: Algebraic Geometry and Complex Analysis. Lecture Notes in Math. vol. 1414 (Springer, 1987), pp. 107161.Google Scholar
[14] Mond, D. The number of vanishing cycles for a quasihomogeneous mapping from ℂ2 to ℂ3. Quart. J. Math. Oxford (2) 42 (1991), 335345.Google Scholar
[15] Peñafort–Sanchis, G. Reflection Maps. Preprint, arXiv:1609.03222v2 [math.AG], (2016).Google Scholar
[16] Ruas, M.A.S. Equimultiplicity of topologically equisingular families of parametrised surfaces in ℂ3. Preprint, arXiv:1302.5800v1 [math.CV], (2013).Google Scholar
[17] Ruas, M.A.S. On the equisingularity of families of corank 1 generic germs. Contemporary Math. 161 (1994), 113121.Google Scholar
[18] Silva, O.N. Superfícies com singularidades não isoladas. PhD thesis. Universidade de São Paulo (2017).Google Scholar
[19] Teissier, B. Sur la classification des singularités des espaces analytiques complexes. In Proceedings of the International Congress of Mathematicians vol. 1, 2 (Warsaw, 1983), pp. 763781.Google Scholar
[20] Teissier, B. Variétés polaires II: multiplicités polaires, sections planes, et conditions de Whitney. In Algebraic Geometry, Proc. La Rabida. Lecture Notes in Math. vol. 961 (Springer–Verlag, 1982), pp. 314491.Google Scholar
[21] Wall, C. T. C. Finite determinacy of smooth map-germs. Bull. London Math. Soc. (6) 13 (1981), 481539.Google Scholar
[22] Wolfram, D., Greuel, G. M., Pfister, G. and Schönemann, H. Singular 4-0-2, a computer algebra system for polynomial computations. http://www.singular.uni-kl.de, (2015).Google Scholar