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The Poset of $k$-Shapes and Branching Rules for $k$-Schur Functions
 
Thomas Lam University of Michigan, Ann Arbor, MI
Luc Lapointe Universidad de Talca, Talca, Chile
Jennifer Morse Drexel University, Philadelphia, PA
Mark Shimozono Virginia Polytechnic Institute and State University, Blacksburg, VA
Front Cover for The Poset of $k$-Shapes and Branching Rules for $k$-Schur Functions
eBookISBN:  978-0-8218-9874-1
Product Code:  MEMO/223/1050.E
List Price: $72.00
MAA Member Price: $64.80
AMS Member Price: $43.20
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Front Cover for The Poset of $k$-Shapes and Branching Rules for $k$-Schur Functions
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  • Front Cover for The Poset of $k$-Shapes and Branching Rules for $k$-Schur Functions
  • Back Cover for The Poset of $k$-Shapes and Branching Rules for $k$-Schur Functions
The Poset of $k$-Shapes and Branching Rules for $k$-Schur Functions
Thomas Lam University of Michigan, Ann Arbor, MI
Luc Lapointe Universidad de Talca, Talca, Chile
Jennifer Morse Drexel University, Philadelphia, PA
Mark Shimozono Virginia Polytechnic Institute and State University, Blacksburg, VA
eBook ISBN:  978-0-8218-9874-1
Product Code:  MEMO/223/1050.E
List Price: $72.00
MAA Member Price: $64.80
AMS Member Price: $43.20
Add to cart
  • Book Details
     
     
    Memoirs of the American Mathematical Society
    Volume: 2232013; 101 pp
    MSC: Primary 05; Secondary 14;

    The authors give a combinatorial expansion of a Schubert homology class in the affine Grassmannian \(\mathrm{Gr}_{\mathrm{SL}_k}\) into Schubert homology classes in \(\mathrm{Gr}_{\mathrm{SL}_{k+1}}\). This is achieved by studying the combinatorics of a new class of partitions called \(k\)-shapes, which interpolates between \(k\)-cores and \(k+1\)-cores. The authors define a symmetric function for each \(k\)-shape, and show that they expand positively in terms of dual \(k\)-Schur functions. The authors obtain an explicit combinatorial description of the expansion of an ungraded \(k\)-Schur function into \(k+1\)-Schur functions. As a corollary, the authors give a formula for the Schur expansion of an ungraded \(k\)-Schur function.

  • Table of Contents
     
     
    • Chapters
    • 1. Introduction
    • 2. The poset of $k$-shapes
    • 3. Equivalence of paths in the poset of $k$-shapes
    • 4. Strips and tableaux for $k$-shapes
    • 5. Pushout of strips and row moves
    • 6. Pushout of strips and column moves
    • 7. Pushout sequences
    • 8. Pushouts of equivalent paths are equivalent
    • 9. Pullbacks
    • A. Tables of branching polynomials
  • Requests
     
     
    Review Copy – for reviewers who would like to review an AMS book
    Permission – for use of book, eBook, or Journal content
    Accessibility – to request an alternate format of an AMS title
Memoirs of the American Mathematical Society
Volume: 2232013; 101 pp
MSC: Primary 05; Secondary 14;

The authors give a combinatorial expansion of a Schubert homology class in the affine Grassmannian \(\mathrm{Gr}_{\mathrm{SL}_k}\) into Schubert homology classes in \(\mathrm{Gr}_{\mathrm{SL}_{k+1}}\). This is achieved by studying the combinatorics of a new class of partitions called \(k\)-shapes, which interpolates between \(k\)-cores and \(k+1\)-cores. The authors define a symmetric function for each \(k\)-shape, and show that they expand positively in terms of dual \(k\)-Schur functions. The authors obtain an explicit combinatorial description of the expansion of an ungraded \(k\)-Schur function into \(k+1\)-Schur functions. As a corollary, the authors give a formula for the Schur expansion of an ungraded \(k\)-Schur function.

  • Chapters
  • 1. Introduction
  • 2. The poset of $k$-shapes
  • 3. Equivalence of paths in the poset of $k$-shapes
  • 4. Strips and tableaux for $k$-shapes
  • 5. Pushout of strips and row moves
  • 6. Pushout of strips and column moves
  • 7. Pushout sequences
  • 8. Pushouts of equivalent paths are equivalent
  • 9. Pullbacks
  • A. Tables of branching polynomials
Review Copy – for reviewers who would like to review an AMS book
Permission – for use of book, eBook, or Journal content
Accessibility – to request an alternate format of an AMS title
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