Hinke Osinga

Hinke Maria Osinga(born 25 December 1969)^[1]is a Dutch mathematician and an expert indynamical systems.She works as a professor ofapplied mathematicsat theUniversity of Aucklandin New Zealand.^[2]As well as for her research, she is known as a creator ofmathematical art.

Osinga earned a master's degree in 1991 and a Ph.D. in 1996 from theUniversity of Groningen.^[2]Her doctoral dissertation, jointly supervised bydynamical systemstheoristHenk Broerandcomputational geometerGert Vegter, was on the computation ofinvariant manifolds.^[3]

After postdoctoral studies atThe Geometry Centerand theCalifornia Institute of Technology,and a short-term lecturership at theUniversity of Exeter,she became a lecturer at theUniversity of Bristolin 2001, and was promoted to reader and professor there in 2005 and 2011, respectively. She moved to Auckland in 2011,^[2]becoming the first female mathematics professor at Auckland and the second in New Zealand.^[4]

In 2004 Osinga created acrochetedvisualization of the Lorenz manifold, an invariant manifold for theLorenz system,and published the crochet pattern for her work with her husbandBernd Krauskopf;the resultingmathematical textile artworkinvolved over 25,000 crochet stitches, and measured nearly a meter across.^[5][6]Osinga and Krauskopf later collaborated with artist Benjamin Storch on a stainless steel sculpture that provides another interpretation of the same mathematical system.^[7]

Osinga was aninvited speaker at the International Congress of Mathematiciansin 2014, speaking on "Mathematics in Science and Technology".^[8]In 2015 she was elected as afellowof theSociety for Industrial and Applied Mathematics"for contributions to theory and computational methods for dynamical systems."^[9]In October 2016 she became the first female mathematician elected to the Royal Society of New Zealand.^[10][11]She was awarded theAitken Lectureshipin 2017.^[12]

In 2017 Osinga was selected as one of the Royal Society Te Apārangi's "150 women in 150 words",celebrating the contributions of women to knowledge in New Zealand.^[13]The same year she received the Moyal Medal from Macquarie University.^[14]

Scholiahas a profile forHinke Maria Osinga(Q21155631).

• Bernd Krauskopf;Hinke Osinga(1 September 1999). "Two-dimensional global manifolds of vector fields".Chaos.9(3): 768–774.doi:10.1063/1.166450.ISSN1054-1500.PMID12779872.Zbl0983.37110.WikidataQ52015379.
• HINKE OSINGA;JAN WIERSIG; PAUL GLENDINNING; ULRIKE FEUDEL (December 2001). "MULTISTABILITY AND NONSMOOTH BIFURCATIONS IN THE QUASIPERIODICALLY FORCED CIRCLE MAP".International Journal of Bifurcation and Chaos in Applied Sciences and Engineering.11(12): 3085–3105.arXiv:nlin/0005032.doi:10.1142/S0218127401004029.ISSN0218-1274.Zbl1091.37507.WikidataQ62266582.
• Hinke M. Osinga;Bernd Krauskopf (September 2004). "Crocheting the Lorenz Manifold".The Mathematical Intelligencer.26(4): 25–37.doi:10.1007/BF02985416.ISSN0343-6993.Zbl1073.37036.WikidataQ59699175.
• James Rankin;Hinke M. Osinga(June 2017). "Parameter-dependent behaviour of periodic channels in a locus of boundary crisis".European Physical Journal. Special Topics.226(9): 1739–1750.doi:10.1140/EPJST/E2017-70048-X.ISSN1951-6355.WikidataQ59614300.
• Hinke Maria Osinga(25 February 2018). "Understanding the geometry of dynamics: the stable manifold of the Lorenz system".Journal of the Royal Society of New Zealand.48(2–3): 203–214.doi:10.1080/03036758.2018.1434802.ISSN0303-6758.WikidataQ114465068.
• Andy Hammerlindl; Bernd Krauskopf; Gemma Mason;Hinke M. Osinga(2022). "Determining the global manifold structure of a continuous-time heterodimensional cycle".Journal of Computational Dynamics.9(3): 393.doi:10.3934/JCD.2022008.ISSN2158-2505.Zbl1503.34079.WikidataQ114464698.

• Official website