1 / 29

Life and Mathematics

Life and Mathematics. Nalini Joshi @monsoon0. Life Work Reflections. “mathematician” by Trixie Barretto. vimeo.com/33615260. Life. Where I am now. Integrable Systems. Properties of Solutions. Integers Rational numbers Algebraic numbers Transcendental numbers. Polynomials

hetal
Download Presentation

Life and Mathematics

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. Life and Mathematics • Nalini Joshi • @monsoon0

  2. Life • Work • Reflections

  3. “mathematician” by Trixie Barretto vimeo.com/33615260

  4. Life

  5. Where I am now

  6. Integrable Systems

  7. Properties of Solutions • Integers • Rational numbers • Algebraic numbers • Transcendental numbers • Polynomials • Rational functions • Algebraic functions • Transcendental functions

  8. The first Painlevé Eqn • PI : • In system form • PI has a t-dependent Hamiltonian • Solutions are highly transcendental, meromorphic functions.

  9. Elliptic Functions • Weierstrass elliptic functions

  10. A Geometric View • Instead of studying the differential equation, we can study properties of the level curves of • Initial values for the differential equation identify a curve and a starting point on it.

  11. Geometry Level curves of

  12. Projective Space • The solutions of PI are meromorphic, with movable poles. What if x, y become unbounded? • We use projective geometry: • The level curves are now all intersecting at the base point [0, 1, 0]. • How to resolve the flow through this point?

  13. Resolution • “Blow up” the singularity or base point: • Note that

  14. PI • There are nine blow-ups: • Only the last one differs from the elliptic case.

  15. Line of poles Exceptional Lines L9 S9(z) L8(1) L7(2) L6(3) L5(4) L3(6) L4(5) L0(9) L1(8) L2(7)

  16. L0(9) 3 2 4 3 1 6 5 4 2 L1(8) L8(1) L2(7) L3(6) L4(5) L5(4) L6(3) L7(2) Exceptional Lie Algebra Affine extended E8

  17. The Repellor Set • Definition: For z ∈ ℂ\{0}, let S denote the fibre bundle of the Okamoto surfacesS9(z) and This is the infinity set. • Proposition: I(z) is a repellor for the flow.

  18. Lemma: is a non-empty, connected and compact subset of Okamoto’s space. The Limit Set • Definition: For every solution U(z) ∈ S9(z)\I(z), let This is the limit set.

  19. How many poles? • Lemma: Every solution of the first Painlevé equation has infinitely many poles. • If intersects L9then we get infinitely many poles. If not, then must be a compact subset of S9\{S9,∞ U L9}. Since holomorphic, the limit set must equal one point. But the autonomous system has two points ⇒ contradiction.

  20. Discrete Equations • Sakai CMP 2001 classified all possible second-order equations whose initial value space is regularized by a 9-point blow-up of CP2. • He found all the known Painlevé equations, their recurrence relations and many new difference equations. • How do we describe their solutions? My plan: use geometry.

  21. Reflections • PhD: “Come and read my poster, it’s much better than hers.” • PostDoc: “Babies need mothers.” • Tenure-track: “We note that all of her papers are with XXX.” • Tenured: “Your area of research is very narrow.” • Mid-career: “‘Asymptotic’ does not appear in list of keywords in the NSF database.” • Mid-career: “We have to thank Nalini for reminding us of what Boutroux did in 1913.” • Senior Researcher: “She may be well known in Australia, but is not known overseas.”

  22. Even Nobel-Prize Winners ... • Elizabeth Blackburn (Nobel Prize for Medicine, 2009) New York Times 09 April 2013: She enjoys being free to explore territory where she would not have ventured before. “I would have been a little afraid to do things, because my male colleagues wouldn’t have taken me seriously as a molecular biologist,”she said.

  23. Microaggressionn. • Brief and commonplace daily verbal, behavioural, and environmental indignities, whether intentional or unintentional, that communicate hostile, derogatory, or negative racial, gender, sexual orientation.

  24. How I survived • More than 20 grants, totalling over $5M • Two 5-year research fellowships, one of which saved my career • Papers with 40 collaborators • More than 20 postdocs,10 PhD students

  25. What saves everything, for me, is that mathematics is • Creative play at a deep level. • Creating with friends. • Inventing new ways of seeing. • Contributing to understanding the world.

  26. Collective Wisdom • The “impostor syndrome” • Dual careers or the two-body problem: options, examples and solutions • Work–family balance in a research-oriented career • Maintaining research momentum; • ....

  27. Georgina Sweet Fellowship • To support the promotion of women in research in Australia and the mentoring of early career researchers, particularly women. • Events at annual meetings of the Australian Mathematical Society and Australian Academy of Science, highlighting the life and careers of female speakers and spreading knowledge.

  28. Why do I do Mathematics? • The adventure of exploring the unknown. • The dream that I could understand the structures of the Universe. • The fact that Mathematics has no boundaries or borders.

More Related