Emilie Huffman
Awards
- Computational Resources Grant (5 million core hours), XSEDE Supercomputers, 2022
- Computational Resources Grant (1.2 million core hours), XSEDE Supercomputers, 2021
- Computational Resources Grant (4 million core hours), XSEDE Supercomputers, 2018
Recent Publications
- Banerjee, D., & Huffman, E. (2023). Quantum Monte Carlo for Gauge Fields and Matter without the Fermion Determinant. arxiv:2305.08917v1
- Zhu, W., Han, C., Huffman, E., Hofmann, J. S., & He, Y. -C. (n.d.). Uncovering Conformal Symmetry in the 3D Ising Transition: State-Operator Correspondence from a Quantum Fuzzy Sphere Regularization. Physical Review X, 13(2). doi:10.1103/physrevx.13.021009
- Huffman, E., García Vera, M., & Banerjee, D. (n.d.). Toward the real-time evolution of gauge-invariant
- Banerjee, D., Huffman, E., & Rammelmüller, L. (n.d.). Exploring bosonic and fermionic link models on
- Assaad, F., Bercx, M., Goth, F., Götz, A., Hofmann, J., Huffman, E., . . . Schwab, J. (n.d.). Codebase release 2.0 for ALF (Algorithms for Lattice Fermions). SciPost Physics Codebases. doi:10.21468/scipostphyscodeb.1-r2.0
- Assaad, F., Bercx, M., Goth, F., Götz, A., Hofmann, J., Huffman, E., . . . Schwab, J. (n.d.). The ALF (Algorithms for Lattice Fermions) project release 2.0. Documentation for the auxiliary-field quantum Monte Carlo code. SciPost Physics Codebases. doi:10.21468/scipostphyscodeb.1
- Liu, H., Huffman, E., Chandrasekharan, S., & Kaul, R. K. (n.d.). Quantum Criticality of Antiferromagnetism and Superconductivity with Relativity. Physical Review Letters, 128(11). doi:10.1103/physrevlett.128.117202
- Huffman, E. (2021). Critical exponents for a spin-charge flip symmetric fixed point in 2+1d with massless Dirac fermions. doi:10.22323/1.396.0208
- Banerjee, D., Huffman, E., & Rammelmüller, L. (2021). Introducing Fermionic Link Models. doi:10.22323/1.396.0193
- Report on 2012.11914v2 (2021). doi:10.21468/scipost.report.2918
- Frank, J., Huffman, E., & Chandrasekharan, S. (2020). Emergence of Gauss' law in a Z2 lattice gauge theory in 1?+?1 dimensions. Physics Letters B, 806, 135484. doi:10.1016/j.physletb.2020.135484
- Huffman, E., & Chandrasekharan, S. (n.d.). Fermion-bag inspired Hamiltonian lattice field theory for fermionic quantum criticality. Physical Review D, 101(7). doi:10.1103/physrevd.101.074501
Seminars
- A Conformally Symmetric View from a Fuzzy Sphere, Wilhelm and Else Heraeus Seminar on Simulations of Quantum Field Theories, Oberwoelz, Austria, 2023/09/06
- Gauge Fields and Matter without the Fermion Determinant, Lattice 2023, Fermilab, Chicago, United States, 2023/08/03
- QMC for Gauge Fields and Matter with No Fermion Determinant, JSF Workshop on the Fermion Sign Problem, Peyresq, France, 2023/07/24
- A Conformally Symmetric View from a Fuzzy Sphere, Google (United States), Mountain View, United States, 2023/06/05
- Universality from Hamiltonian Lattice Fermions, CRM Workshop on CFT/Many-Body Physics, Montreal, Canada, 2022/01/01
- Fermion QMC, ALF Workshop, University of Wuerzburg, Germany. [virtual], 2022/01/01
- Real-time dynamics of Plaquette Models using NISQ Hardware, Unitary Fund. [virtual], 2021/01/01
- Critical exponents at the spin-charge flip symmetric fixed point, Lattice 2021, Massachusetts Institute of Technology, Cambridge, USA. [virtual], 2021/01/01
- Real-time evolution of qubit regularized Gauge Theories, YITP Workshop, Kyoto, Japan. [virtual], 2021/01/01
- IBM Q and Quantum Link Models on Quantum Circuits, University of Wuerzburg, Wuerzburg, Germany. [virtual], 2021/01/01
- Interacting massless Dirac fermions with spin-charge flip symmetry, Saha Institute of Nuclear Physics, Kolkata, India. [virtual], 2021/01/01