Quantum Argument--Shift Subalgebras via Quantized Shift Operators

par Georgy Sharygin (Moscow State University)

lundi 9 févr. 2026, 15:00 → 16:30 Europe/Paris

Bâtiment Alix et Marwan Lahoud (IHES)

Running Seminar

The argument--shift method constructs maximal Poisson-commutative subalgebras of the symmetric algebra $S(\mathfrak g)$ of a Lie algebra $\mathfrak g$ with respect to the Lie--Poisson bracket. Their quantizations---known as quantum argument--shift subalgebras---form maximal commutative subalgebras of the universal enveloping algebra $U(\mathfrak g)$ and play a fundamental role in quantum integrable systems. Although existence and uniqueness of these quantizations have been established in many cases, the underlying argument--shift procedures, realized as derivations of $S(\mathfrak g)$, had not previously been quantized. Recently, Yasushi Ikeda and I defined quantized argument--shift procedures for $\mathfrak{gl}_n$ and proved that they generate the associated quantum argument--shift subalgebras.

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