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Towards Quantum Simulations

1. Elucidating Reaction Mechanisms on Quantum Computers. Authors: Markus Reiher, Nathan Wiebe, Krysta M. Svore, Dave Wecker, and Matthias Troyer. arXiv:1605.03590 2. Nitrogenase: A Draft Mechanism. Authors: Brian M. Hoffman, Dmitriy Lukoyanov, Dennis R. Dean, and Lance C. Seefeld. Acc. Chem. Res. 2013 Feb 19; 46(2): 587595. Recommended with a commentary by David DiVincenzo, RWTH […]

Tipping the Weyl cone

1.Quantum transport in Dirac materials: Signatures of tilted and anisotropic Dirac and Weyl cones. Authors:M. Trescher, B. Sbierski, P.W. Brouwer, and E.J. Bergholtz. Phys.Rev.B 91,115135(2015) 2.A new type of Weyl semimetals. Authors:A A. Soluyanov, D. Gresch, Z. Wang, Q. Wu, M. Troyer, Z. Dai, and B.A. Bernevig. arXiv:1507.01603(2015) Recommended with a commentary by Carlo Beenakker, […]

The Complexity of the t/J Model

Competing states in the t/J model: uniform d-wave state versus stripe state Authors: P.Corboz, T.M.Rice,and Matthias Troyer. arXiv:1402.2859 Recommended with commentary by Steven Kivelson, Stanford University |View Commentary| DOI: 10.36471/JCCM_March_2014_02

What is the Model for Ferromagnetism in Itinerant Fermions?

1. Itinerant ferromagnetism in a Fermi gas with contact interaction: Magnetic properties in a dilute Hubbard model Authors: C-C. Chang, S. Zhang and D.M. Ceperley, arXiv: 1009.1409v1 2. Itinerant ferromagnetism of a repulsive atomic Fermi gas: a quantum Monte Carlo study Authors: S. Pilati, G. Bertaina, S. Giorgini, and M. Troyer, arXiv:1004.1169v1 Phys. Rev. Lett. […]

Quantum gas microscopy: in-situ imaging of ultracold atomic gases

1. In situ Observation of incompressible Mott-insulating domains in ultracold atomic gases Authors: N. Gemelke, X. Zhang, C.-L. Hung, C. Chin arXiv:0904.1532; Nature 460, 995 (2009) 2. Probing the Superuid-to-Mott-Insulator Transition at the Single-Atom Level Authors: W. S. Bakr, A. Peng, M. E. Tai, R. Ma, J. Simon, J. I. Gillen, S. Folling, L. Pollet, and M. Greiner. […]

Experimental and Theoretical Developments in Dirty Bosons

1) Phase diagram of the disordered Bose-Hubbard model Authors: V. Gurarie, L. Pollet, N. V. Prokofev, B. V. Svistunov and M. Troyer, Arxiv:0909.4593 2) Superfluid-insulator transition of disordered bosons in one-dimension Authors: E. Altman, Y. Kafri, A. Polkovnikov and G. Refael, Arxiv:0909.4096. 3) Disordered insulator in an optical lattice Authors: M. Pasienski, D. McKay, M. […]

Some recent advances in numerical algorithms for quantum many body problems

1) Simulation of interacting fermions with entanglement renormalization Authors: P. Corboz, G. Evenbly, F. Verstraete, and G. Vidal arXiv:0904.415 2) Fermionic Projected Entangled Pair States Authors: C.V. Kraus, N. Schuch, F. Verstraete, J.I. Cirac arXiv:0904.4667 3) Fermionic multi-scale entanglement renormalization ansatz Authors: P. Corboz and G. Vidal arXiv:0907.3184 Recommended with a Commentary by Matthias Troyer, […]

Correspondents prior to last two years

Elihu Abrahams, Rutgers University | View Contributions | Vivek Aji, University of California, Riverside |¬†¬†View Contributions¬†| Jason Alicea, California Institute of Technology | View Contributions | David Andelman, Tel Aviv University | View Contributions | Philip Anderson, Princeton University, Princeton | View Contributions | Arezoo M. Ardekani, University of Notre Dame | View Contributions | […]

Supersolid order on the triangular lattice

Authors: S. Wessel and M. Troyer Phys. Rev. Lett. Vol. 95, 127205 (2005) Authors: D. Heidarian and K. Damle Phys. Rev. Lett. Vol. 95, 127206 (2005) Authors: R. G. Melko, A. Paramekanti, A. A. Burkov, A. Vishwanath, D. N. Sheng, and L. Balents Phys. Rev. Lett. Vol. 95, 127207 (2005) Authors: R. […]