M
Matthias Troyer
Researcher at Microsoft
Publications - 481
Citations - 35590
Matthias Troyer is an academic researcher from Microsoft. The author has contributed to research in topics: Quantum Monte Carlo & Monte Carlo method. The author has an hindex of 86, co-authored 473 publications receiving 28965 citations. Previous affiliations of Matthias Troyer include University of Zurich & ETH Zurich.
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Updated core libraries of the ALPS project
Alexander Gaenko,Andrey E. Antipov,Gabriele Carcassi,Tianran Chen,Xi Chen,Qiaoyuan Dong,Lukas Gamper,Jan Gukelberger,Ryo Igarashi,Sergei Iskakov,Mario S. Könz,James P.F. LeBlanc,James P.F. LeBlanc,Ryan Levy,Ryan Levy,Ping Nang Ma,Joseph Paki,Hiroshi Shinaoka,Synge Todo,Matthias Troyer,Emanuel Gull +20 more
TL;DR: This paper presents an updated and refactored version of the core ALPS libraries geared at the computational physics software development community, rewritten with focus on documentation, ease of installation, and software maintainability.
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Fate of vacancy-induced supersolidity in 4He.
Massimo Boninsegni,Anatoly Kuklov,Lode Pollet,Nikolay Prokof'ev,Nikolay Prokof'ev,Nikolay Prokof'ev,Boris Svistunov,Boris Svistunov,Matthias Troyer +8 more
TL;DR: Using quantum Monte Carlo methods, this article investigated the long-standing question of vacancy-induced superflow and found that vacancies in a polycrystalline crystal phase separate instead of forming a supersolid.
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Flat histogram methods for quantum systems: algorithms to overcome tunneling problems and calculate the free energy.
TL;DR: A generalization of the classical Wang-Landau algorithm to quantum systems, which is efficient at thermal and quantum phase transitions, greatly reducing the tunneling problem at first order phase transition, and allow the direct calculation of the free energy and entropy.
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A short introduction to Fibonacci anyon models
TL;DR: In this article, the authors introduce the theory of anyons and discuss in detail how basis sets and matrix representations of the interaction terms can be obtained, using non-Abelian Fibonacci anyons as example.
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Properties of lightly doped t-J two-leg ladders.
TL;DR: In this paper, the authors numerically investigated the doped t-J ladder using exact diagonalization and showed that the ladder scales to the Luther-Emery liquid regime in the strong interchain coupling limit.