Q-Seminar
12.30 pm, Elings Hall Beyond valence bonds with ultracold atoms:
Chiral spin liquids and other surprises in SU(N) quantum magnetism
A crucial basic property of antiferromagnetic insulators with SU(2) spins is that adjacent spins can (and tend to) combine to form singlets, or valence bonds. The classical analog of this fact is that adjacent spins prefer to be antiparallel. These two facts underly much of our thinking about ground states of quantum antiferromagnets.
In this talk, I will explain how ultracold alkaline earth atoms can be used to realize a class of magnetic insulators where a minimum of N SU(N) spins is required to form a singlet, where N can be as large as 10. These systems belong to a virtually unexplored class of quantum magnets. I will show that even the simplest such models on the square lattice hold remarkable surprises.
Tuesday, September 15th
Time
Appointment
location
email/phone
(please sign up)
Q-Seminar
12.30 pm, Elings Hall
Beyond valence bonds with ultracold atoms:
Chiral spin liquids and other surprises in SU(N) quantum magnetism
A crucial basic property of antiferromagnetic insulators with SU(2) spins is that adjacent spins can (and tend to) combine to form singlets, or valence bonds. The classical analog of this fact is that adjacent spins prefer to be antiparallel. These two facts underly much of our thinking about ground states of quantum antiferromagnets.
In this talk, I will explain how ultracold alkaline earth atoms can be used to realize a class of magnetic insulators where a minimum of N SU(N) spins is required to form a singlet, where N can be as large as 10. These systems belong to a virtually unexplored class of quantum magnets. I will show that even the simplest such models on the square lattice hold remarkable surprises.