Emergent fermionic gauge theory and foliated fracton order in the Chamon model
Creators
Abstract
The Chamon model is an exactly solvable spin Hamiltonian exhibiting nontrivial fracton order. In this paper, we dissect two distinct aspects of the model. First, we show that it exhibits an emergent fractonic gauge theory coupled to a fermionic subsystem symmetry-protected topological state under four stacks of ℤ₂ planar symmetries. Second, we show that the Chamon model hosts 4-foliated fracton order by describing an entanglement renormalization group transformation that exfoliates four separate stacks of 2D toric codes from the bulk system.
Copyright and License
© 2023 American Physical Society.
Acknowledgement
W.S. is grateful to Xie Chen and Kevin Slagle for many inspiring discussions. A.D. thanks Dominic J. Williamson for related discussions. W.S. and A.D. are supported by the Simons Foundation through the collaboration on Ultra-Quantum Matter (No. 651444, W.S.; No. 651438, A.D.) and by the Institute for Quantum Information and Matter, an NSF Physics Frontiers Center (No. PHY-1733907). W.S. also received support from the National Science Foundation under the Award No. DMR-1654340.
Files
PhysRevB.107.035136.pdf
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Additional details
Identifiers
- ISSN
- 2469-9969
Funding
- Simons Foundation
- 651444
- Simons Foundation
- 651438
- California Institute of Technology
- Institute for Quantum Information and Matter
- National Science Foundation
- PHY-1733907
- National Science Foundation
- DMR-1654340