Home » Morse-Witten Theory for Real Operators

Morse-Witten Theory for Real Operators

MAR 08, 2019 | 11:45 AM TO 12:45 PM


WHERE: The Graduate Center
365 Fifth Avenue
ROOM: 3209
WHEN: March 08, 2019: 11:45 AM-12:45 PM
CONTACT INFO: Applied Topology
SPONSOR: Data Science and Applied Topology Seminar



Greg Henselman-Petrusek will be talking about Morse-Witten Theory for Real Operators.

Accelerated by applications in mathematical physics from the late 20th century, the interaction of Morse and Hodge Theory in smooth geometry has propelled remarkable advances in geometric topology over the past four decades. Progress in this domain has considerably outpaced parallel investigations in combinatorial topology, where several of the most basic questions regarding spectral analysis of discrete Morse structures remain outstanding. The present talk introduces a discrete Morse-Witten theory for real-linear operators, a direct extension of the Morse-Witten theory for CW complexes pioneered by Forman in the late 1990’s. Time permitting, we will discuss some consequences for spectral analysis of cellular spaces, the surprisingly categorical underpinnings of the Morse-Witten complex, and several future directions. No prior knowledge of Morse-Witten theory will be assumed, smooth or otherwise.