Chris Burdzy, Zhen-Qing Chen, Ioana Dumitriu, Chris Hoffman, Hari Narayanan, Soumik Pal, Steffen Rohde
| First Year | |||
|---|---|---|---|
| 524 | 525 | 526 | (Real Analysis) |
| 534 | 535 | 536 | (Complex Analysis) |
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| 544 | 545 | 546 | (Topology and Geometry of Manifolds) |
| 554 | 555 | 556 | (Linear Analysis) |
| 504 | 505 | 506 | (Modern Algebra) |
| Second Year | |||
| 521 | 522 | 523 | (Advanced Probability) |
| 527 | 528 | 529 | (Functional Analysis) |
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| 557 | 558 | 559 | (Introduction to Partial Differential Equations) |
| 544 | 545 | 546 | (Topology and Geometry of Manifolds) |
| 554 | 555 | 556 | (Linear Analysis) |
| 577 | 578 | 579 | (Lie Groups and Lie Algebras) |
| 504 | 505 | 506 | (Modern Algebra) |
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FOREIGN LANGUAGE/COMPUTER REQUIREMENT:
- We recommend that students
planning to pursue a PhD in probability pass the French and
computer programming exams.
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ADDITIONAL COMMENTS:
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The key sequences are 524/5/6, 534/5/6, 521/2/3, and 527/8/9. Students should consult with their advisors to discuss the other choices. It is recommended that at some point in their graduate career students take 557/8/9 and topics courses in probability theory.
