Your search keyword '"Shu, Heng"' showing total 22 results

1. Non-invertible symmetries and LSM-type constraints on a tensor product Hilbert space

Author

Nathan Seiberg, Sahand Seifnashri, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We discuss the exact non-invertible Kramers-Wannier symmetry of 1+1d lattice models on a tensor product Hilbert space of qubits. This symmetry is associated with a topological defect and a conserved operator, and the latter can be presented as a matrix product operator. Importantly, unlike its continuum counterpart, the symmetry algebra involves lattice translations. Consequently, it is not described by a fusion category. In the presence of this defect, the symmetry algebra involving parity/time-reversal is realized projectively, which is reminiscent of an anomaly. Different Hamiltonians with the same lattice non-invertible symmetry can flow in their continuum limits to infinitely many different fusion categories (with different Frobenius-Schur indicators), including, as a special case, the Ising CFT. The non-invertible symmetry leads to a constraint similar to that of Lieb-Schultz-Mattis, implying that the system cannot have a unique gapped ground state. It is either in a gapless phase or in a gapped phase with three (or a multiple of three) ground states, associated with the spontaneous breaking of the lattice non-invertible symmetry.

Published

2024

2. Majorana chain and Ising model - (non-invertible) translations, anomalies, and emanant symmetries

Author

Nathan Seiberg, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We study the symmetries of closed Majorana chains in 1+1d, including the translation, fermion parity, spatial parity, and time-reversal symmetries. The algebra of the symmetry operators is realized projectively on the Hilbert space, signaling anomalies on the lattice, and constraining the long-distance behavior. In the special case of the free Hamiltonian (and small deformations thereof), the continuum limit is the 1+1d free Majorana CFT. Its continuum chiral fermion parity $(-1)^{F_\text{L}}$ emanates from the lattice translation symmetry. We find a lattice precursor of its mod 8 't Hooft anomaly. Using a Jordan-Wigner transformation, we sum over the spin structures of the lattice model (a procedure known as the GSO projection), while carefully tracking the global symmetries. In the resulting bosonic model of Ising spins, the Majorana translation operator leads to a non-invertible lattice translation symmetry at the critical point. The non-invertible Kramers-Wannier duality operator of the continuum Ising CFT emanates from this non-invertible lattice translation of the transverse-field Ising model.

Published

2024

3. Majorana chain and Ising model - (non-invertible) translations, anomalies, and emanant symmetries

Author

Seiberg, Nathan, primary and Shao, Shu-Heng, additional

Published

2024

4. Higher central charges and topological boundaries in 2+1-dimensional TQFTs

Author

Justin Kaidi, Zohar Komargodski, Kantaro Ohmori, Sahand Seifnashri, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

A 2+1-dimensional topological quantum field theory (TQFT) may or may not admit topological (gapped) boundary conditions. A famous necessary, but not sufficient, condition for the existence of a topological boundary condition is that the chiral central charge $c_-$ has to vanish. In this paper, we consider conditions associated with "higher" central charges, which have been introduced recently in the math literature. In terms of these new obstructions, we identify necessary and sufficient conditions for the existence of a topological boundary in the case of bosonic, Abelian TQFTs, providing an alternative to the identification of a Lagrangian subgroup. Our proof relies on general aspects of gauging generalized global symmetries. For non-Abelian TQFTs, we give a geometric way of studying topological boundary conditions, and explain certain necessary conditions given again in terms of the higher central charges. Along the way, we find a curious duality in the partition functions of Abelian TQFTs, which begs for an explanation via the 3d-3d correspondence.

Published

2022

5. 3d N=4 Bootstrap and Mirror Symmetry

Author

Chi-Ming Chang, Martin Fluder, Ying-Hsuan Lin, Shu-Heng Shao, Yifan Wang

Subjects

Physics, QC1-999

Abstract

We investigate the non-BPS realm of 3d ${\cal N} = 4$ superconformal field theory by uniting the non-perturbative methods of the conformal bootstrap and supersymmetric localization, and utilizing special features of 3d ${\cal N} = 4$ theories such as mirror symmetry and a protected sector described by topological quantum mechanics (TQM). Supersymmetric localization allows for the exact determination of the conformal and flavor central charges, and the latter can be fed into the mini-bootstrap of the TQM to solve for a subset of the OPE data. We examine the implications of the $\mathbb{Z}_2$ mirror action for the SCFT single- and mixed-branch crossing equations for the moment map operators, and apply numerical bootstrap to obtain universal constraints on OPE data for given flavor symmetry groups. A key ingredient in applying the bootstrap analysis is the determination of the mixed-branch superconformal blocks. Among other results, we show that the simplest known self-mirror theory with $SU(2) \times SU(2)$ flavor symmetry saturates our bootstrap bounds, which allows us to extract the non-BPS data and examine the self-mirror $\mathbb{Z}_2$ symmetry thereof.

Published

2021

6. Exotic symmetries, duality, and fractons in 2+1-dimensional quantum field theory

Author

Nathan Seiberg, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We discuss nonstandard continuum quantum field theories in 2+1 dimensions. They exhibit exotic global symmetries, a subtle spectrum of charged excitations, and dualities similar to dualities of systems in 1+1 dimensions. These continuum models represent the low-energy limits of certain known lattice systems. One key aspect of these continuum field theories is the universal and important role played by discontinuous field configurations. In two companion papers, we will present 3+1-dimensional versions of these systems. In particular, we will discuss continuum quantum field theories of some models of fractons.

Published

2021

7. Exotic $\mathbb{Z}_N$ symmetries, duality, and fractons in 3+1-dimensional quantum field theory

Author

Nathan Seiberg, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

Following our earlier analyses of nonstandard continuum quantum field theories, we study here gapped systems in 3+1 dimensions, which exhibit fractonic behavior. In particular, we present three dual field theory descriptions of the low-energy physics of the X-cube model. A key aspect of our constructions is the use of discontinuous fields in the continuum field theory. Spacetime is continuous, but the fields are not.

Published

2021

8. More exotic field theories in 3+1 dimensions

Author

Pranay Gorantla, Ho Tat Lam, Nathan Seiberg, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We continue the exploration of nonstandard continuum field theories related to fractons in 3+1 dimensions. Our theories exhibit exotic global and gauge symmetries, defects with restricted mobility, and interesting dualities. Depending on the model, the defects are the probe limits of either fractonic particles, strings, or strips. One of our models is the continuum limit of the plaquette Ising lattice model, which features an important role in the construction of the X-cube model.

Published

2020

9. Exotic $U(1)$ symmetries, duality, and fractons in 3+1-dimensional quantum field theory

Author

Nathan Seiberg, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We extend our exploration of nonstandard continuum quantum field theories in 2+1 dimensions to 3+1 dimensions. These theories exhibit exotic global symmetries, a peculiar spectrum of charged states, unusual gauge symmetries, and surprising dualities. Many of the systems we study have a known lattice construction. In particular, one of them is a known gapless fracton model. The novelty here is in their continuum field theory description. In this paper, we focus on models with a global $U(1)$ symmetry and in a followup paper we will study models with a global $\mathbb{Z}_N$ symmetry.

Published

2020

10. Lorentz symmetry fractionalization and dualities in (2+1)d

Author

Po-Shen Hsin, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We discuss symmetry fractionalization of the Lorentz group in (2+1)d non-spin quantum field theory (QFT), and its implications for dualities. We prove that two inequivalent non-spin QFTs are dual as spin QFTs if and only if they are related by a Lorentz symmetry fractionalization with respect to an anomalous $\mathbb{Z}_2$ one-form symmetry. Moreover, if the framing anomalies of two non-spin QFTs differ by a multiple of 8, then they are dual as spin QFTs if and only if they are also dual as non-spin QFTs. Applications to summing over the spin structures, time-reversal symmetry, and level/rank dualities are explored. The Lorentz symmetry fractionalization naturally arises in Chern-Simons matter dualities that obey certain spin/charge relations, and is instrumental for the dualities to hold when viewed as non-spin theories.

Published

2020

11. Higher central charges and topological boundaries in 2+1-dimensional TQFTs

Author

Kaidi, Justin, primary, Komargodski, Zohar, additional, Ohmori, Kantaro, additional, Seifnashri, Sahand, additional, and Shao, Shu-Heng, additional

Published

2022

12. An index for quantum integrability

Author

Shota Komatsu, Raghu Mahajan, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

The existence of higher-spin quantum conserved currents in two dimensions guarantees quantum integrability. We revisit the question of whether classically-conserved local higher-spin currents in two-dimensional sigma models survive quantization. We define an integrability index $\mathcal{I}(J)$ for each spin $J$, with the property that $\mathcal{I}(J)$ is a lower bound on the number of quantum conserved currents of spin $J$. In particular, a positive value for the index establishes the existence of quantum conserved currents. For a general coset model, with or without extra discrete symmetries, we derive an explicit formula for a generating function that encodes the indices for all spins. We apply our techniques to the $\mathbb{CP}^{N-1}$ model, the $O(N)$ model, and the flag sigma model $\frac{U(N)}{U(1)^{N}}$. For the $O(N)$ model, we establish the existence of a spin-6 quantum conserved current, in addition to the well-known spin-4 current. The indices for the $\mathbb{CP}^{N-1}$ model for $N>2$ are all non-positive, consistent with the fact that these models are not integrable. The indices for the flag sigma model $\frac{U(N)}{U(1)^{N}}$ for $N>2$ are all negative. Thus, it is unlikely that the flag sigma models are integrable.

Published

2019

13. Sigma models on flags

Author

Kantaro Ohmori, Nathan Seiberg, Shu-Heng Shao

Subjects

Physics, QC1-999

Abstract

We study (1+1)-dimensional non-linear sigma models whose target space is the flag manifold $U(N)\over U(N_1)\times U(N_2)\cdots U(N_m)$, with a specific focus on the special case $U(N)/U(1)^{N}$. These generalize the well-known $\mathbb{CP}^{N-1}$ model. The general flag model exhibits several new elements that are not present in the special case of the $\mathbb{CP}^{N-1}$ model. It depends on more parameters, its global symmetry can be larger, and its 't Hooft anomalies can be more subtle. Our discussion based on symmetry and anomaly suggests that for certain choices of the integers $N_I$ and for specific values of the parameters the model is gapless in the IR and is described by an $SU(N)_1$ WZW model. Some of the techniques we present can also be applied to other cases.

Published

2019

14. 3d N=4 Bootstrap and Mirror Symmetry

Author

Chang, Chi-Ming, primary, Fluder, Martin, additional, Lin, Ying-Hsuan, additional, Shao, Shu-Heng, additional, and Wang, Yifan, additional

Published

2021

15. Exotic $U(1)$ symmetries, duality, and fractons in 3+1-dimensional quantum field theory

Author

Shu-Heng Shao and Nathan Seiberg

Subjects

High Energy Physics - Theory, Physics, Strongly Correlated Electrons (cond-mat.str-el), Continuum (measurement), One-dimensional space, FOS: Physical sciences, General Physics and Astronomy, 01 natural sciences, lcsh:QC1-999, 010305 fluids & plasmas, Condensed Matter - Strongly Correlated Electrons, Theoretical physics, Gapless playback, High Energy Physics - Theory (hep-th), Lattice (order), 0103 physical sciences, Homogeneous space, Quantum field theory, 010306 general physics, U-1, Fracton, lcsh:Physics

Abstract

We extend our exploration of nonstandard continuum quantum field theories in 2+1 dimensions to 3+1 dimensions. These theories exhibit exotic global symmetries, a peculiar spectrum of charged states, unusual gauge symmetries, and surprising dualities. Many of the systems we study have a known lattice construction. In particular, one of them is a known gapless fracton model. The novelty here is in their continuum field theory description. In this paper, we focus on models with a global $U(1)$ symmetry and in a followup paper we will study models with a global $\mathbb{Z}_N$ symmetry., 74 pages. v3: significant changes

Published

2020

16. Exotic symmetries, duality, and fractons in 2+1-dimensional quantum field theory

Author

Seiberg, Nathan, primary and Shao, Shu-Heng, additional

Published

2021

17. Exotic $\mathbb{Z}_N$ symmetries, duality, and fractons in 3+1-dimensional quantum field theory

Author

Seiberg, Nathan, primary and Shao, Shu-Heng, additional

Published

2021

18. More exotic field theories in 3+1 dimensions

Author

Gorantla, Pranay, primary, Lam, Ho Tat, additional, Seiberg, Nathan, additional, and Shao, Shu-Heng, additional

Published

2020

19. Exotic $U(1)$ symmetries, duality, and fractons in 3+1-dimensional quantum field theory

Author

Seiberg, Nathan, primary and Shao, Shu-Heng, additional

Published

2020

20. Lorentz symmetry fractionalization and dualities in (2+1)d

Author

Hsin, Po-Shen, primary and Shao, Shu-Heng, additional

Published

2020

21. An index for quantum integrability

Author

Komatsu, Shota, primary, Mahajan, Raghu, additional, and Shao, Shu-Heng, additional

Published

2019

22. Sigma models on flags

Author

Ohmori, Kantaro, primary, Seiberg, Nathan, additional, and Shao, Shu-Heng, additional

Published

2019