2017
DOI: 10.1016/j.jcta.2016.11.005
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Pieri rules for Schur functions in superspace

Abstract: Abstract. The Schur functions in superspace s Λ ands Λ are the limits q = t = 0 and q = t = ∞ respectively of the Macdonald polynomials in superspace. We prove Pieri rules for the bases s Λ ands Λ (which happen to be essentially dual). As a consequence, we derive the basic properties of these bases such as dualities, monomial expansions, and tableaux generating functions.

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Cited by 8 publications
(8 citation statements)
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“…Table 2, note that the first four Pieri rules were first conjectured in [5]. These together with the following two were then proved in [10]. The remaining two Pieri rules have not been considered before.…”
Section: This Provides a Duality Relationship Between H(z; η) And E(zmentioning
confidence: 97%
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“…Table 2, note that the first four Pieri rules were first conjectured in [5]. These together with the following two were then proved in [10]. The remaining two Pieri rules have not been considered before.…”
Section: This Provides a Duality Relationship Between H(z; η) And E(zmentioning
confidence: 97%
“…Hence, ρ is an involution (ρ 2 = 1). From [10], when acting on a super-Schur function of Type I, it gives…”
Section: 4mentioning
confidence: 99%
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“…, θ N (such that θ i θ j = −θ j θ i , and θ 2 i = 0). Natural generalizations of the monomial, power-sum, elementary and homogeneous symmetric functions, as well as of the Schur [2,13], Jack and Macdonald polynomials have been studied. To illustrate the surprising richness of the theory of symmetric functions in superspace, we could mention that there is even an extension to superspace of the original Macdonald positivity conjecture.…”
Section: Introductionmentioning
confidence: 99%
“…It was established in the proof of Lemma 4 in[10] thate r O sym | θ1···θm+1 = (−1) m A m+1 e (m+1) r U + m c , 27…”
mentioning
confidence: 96%