Calendar
- 30August 30, 2020No events
- 31August 31, 2020No events
- 01September 1, 2020
Some Inequalities in locally compact quantum groups
We will briefly talk about recent developments on inequalities for infinite dimensional quantum symmetries.
- 02September 2, 2020
CMSA Quantum Matter in Mathematics and Physics: Metal-to-metal quantum phase transitions not described by symmetry-breaking orders
Numerous experiments have explored the phases of the cuprates with increasing doping density p from the antiferromagnetic insulator. There is now strong evidence that the small p region is a novel phase of matter, often called the pseudo gap metal, separated from conventional Fermi liquid at larger p by a quantum phase transition. Symmetry-breaking orders play a spectator role, at best, at this quantum phase transition. I will describe trial wave functions across this metal-metal transition employing hidden layers of ancilla qubits (proposed by Ya-Hui Zhang).Quantum fluctuations are described by a gauge theory of ghost fermions that carry neither spin nor charge. I will also describe a separate approach to this transition in a t-J model with random exchange interactions in the limit of large dimensions. This approach leads to a partly solvable SYK-like critical theory of holons and spinons, and a linear in temperature resistivity from time reparameterization fluctuations. Near criticality, both approaches have in common emergent fractionalized excitations, and a significantly larger entropy than naively expected.
Math Table/Open Neighborhood Seminar: All the pictures of all of the surfaces
Math Table/Open Neighborhood Seminar
You’ve probably seen pictures drawn on the chalkboard of a torus (the surface of a donut) or the Klein bottle, a torus with many holes, and perhaps other surfaces. In this talk we will take up the question of whether or not it is possible to make a list of all of the possible pictures of surfaces. The question turns out to have a surprising and beautiful answer, but it takes some real insights to make it into an actual question in mathematics. The story here is not only one of a striking theorem, but also one about mathematicians find, ask, and refine questions.
via Zoom Video Conferencing: https://harvard.zoom.us/j/96759150216
email vcollins@math.harvard.edu or deg@math.harvard.edu for the Password
- 03September 3, 2020
CMSA Quantum Matter in Mathematics and Physics: Gapped Boundaries, Junctions via (fermionic) anyon condensation
We study gapped boundaries characterized by “fermionic condensates” in 2+1 d topological order. Mathematically, each of these condensates can be described by a super commutative Frobenius algebra. We systematically obtain the species of excitations at the gapped boundary/ junctions, and study their endomorphisms (ability to trap a Majorana fermion) and fusion rules, and generalized the defect Verlinde formula to a twisted version. We illustrate these results with explicit examples. We will also comment on the connection with topological defects in spin CFTs. We will review necessary mathematical details of Frobenius algebra and their modules that we made heavy use of.
- 04September 4, 2020No events
- 05September 5, 2020No events