The case for a U(1)$_π$ Quantum Spin Liquid Ground State in the Dipole-Octupole Pyrochlore Ce$_2$Zr$_2$O$_7$

“…This observation combined with our previous conclusion that ferromagnetic (antiferromagnetic) coupling favor a maximum (minimum) in the spin correlation at the zone center, provides a simple way to experimentally determine if the system is in the region of parameter space with frustrated or unfrustrated transverse coupling. The total equal-time NS amplitude has the rod motifs that were obtained from molecular dynamics simulations in the frustrated region of the phase diagram [13,14]. While this feature is roughly consistent with neutron scattering experiments, the higher intensity at (001) and (003) reported in empirical studies does not show up in the theoretical results for these Z 2 QSLs states.…”

“…The values of these coupling constants were estimated for Ce 2 Zr 2 O 7 in two recent studies from a combination of thermodynamic, magnetization and neutron scattering measurements [13,14]. Both found J xz ≈ 0 (i.e., J aa ≈ J a and S a ≈ τ a for a = x, y, z), all couplings to be antiferromagnetic (i.e., J xx > 0, J yy > 0, and J zz > 0), and the octupolar coupling J yy to be the largest or slightly smaller than J xx .…”

“…The dashed lines denote classical phase boundaries while the Jx + Jz = 0 dotted line indicates the boundary between the unfrustrated and frustrated regions of exchange couplings. Black stars and the downward triangle represent experimentally determined coupling constants from [14] and [13] respectively. The Z2-0-000 and Z2-0-010 are both condensed at the Γ point (see fig.…”

“…This description with only a few parameters enables a tractable analysis of its ground state. Experimentally, investigations have shown strong evidence for QSL physics [10][11][12][13][14]. It lacks any magnetic ordering down to the lowest temperature, and it was recently determined that the leading pseudospin exchange coupling is antiferromagnetic and associated with the octupolar pseudospin component.…”

“…It lacks any magnetic ordering down to the lowest temperature, and it was recently determined that the leading pseudospin exchange coupling is antiferromagnetic and associated with the octupolar pseudospin component. Both transverse (dipolar) couplings are also * felix.desrochers@mail.utoronto.ca frustrated [13,14]. That region of parameters space is theoretically suggested to host a π-flux U (1) octupolar quantum spin ice (π-O-QSI) [15][16][17][18][19][20], where the ground state supports a static π-flux of the emergent gauge field in hexagonal loops of the pyrochlore lattice.…”

Competing $U(1)$ and $\mathbb{Z}_2$ dipolar-octupolar quantum spin liquids on the pyrochlore lattice: application to Ce$_2$Zr$_2$O$_7$

“…This observation combined with our previous conclusion that ferromagnetic (antiferromagnetic) coupling favor a maximum (minimum) in the spin correlation at the zone center, provides a simple way to experimentally determine if the system is in the region of parameter space with frustrated or unfrustrated transverse coupling. The total equal-time NS amplitude has the rod motifs that were obtained from molecular dynamics simulations in the frustrated region of the phase diagram [13,14]. While this feature is roughly consistent with neutron scattering experiments, the higher intensity at (001) and (003) reported in empirical studies does not show up in the theoretical results for these Z 2 QSLs states.…”

“…The values of these coupling constants were estimated for Ce 2 Zr 2 O 7 in two recent studies from a combination of thermodynamic, magnetization and neutron scattering measurements [13,14]. Both found J xz ≈ 0 (i.e., J aa ≈ J a and S a ≈ τ a for a = x, y, z), all couplings to be antiferromagnetic (i.e., J xx > 0, J yy > 0, and J zz > 0), and the octupolar coupling J yy to be the largest or slightly smaller than J xx .…”

“…The dashed lines denote classical phase boundaries while the Jx + Jz = 0 dotted line indicates the boundary between the unfrustrated and frustrated regions of exchange couplings. Black stars and the downward triangle represent experimentally determined coupling constants from [14] and [13] respectively. The Z2-0-000 and Z2-0-010 are both condensed at the Γ point (see fig.…”

“…This description with only a few parameters enables a tractable analysis of its ground state. Experimentally, investigations have shown strong evidence for QSL physics [10][11][12][13][14]. It lacks any magnetic ordering down to the lowest temperature, and it was recently determined that the leading pseudospin exchange coupling is antiferromagnetic and associated with the octupolar pseudospin component.…”

“…It lacks any magnetic ordering down to the lowest temperature, and it was recently determined that the leading pseudospin exchange coupling is antiferromagnetic and associated with the octupolar pseudospin component. Both transverse (dipolar) couplings are also * felix.desrochers@mail.utoronto.ca frustrated [13,14]. That region of parameters space is theoretically suggested to host a π-flux U (1) octupolar quantum spin ice (π-O-QSI) [15][16][17][18][19][20], where the ground state supports a static π-flux of the emergent gauge field in hexagonal loops of the pyrochlore lattice.…”

Competing $U(1)$ and $\mathbb{Z}_2$ dipolar-octupolar quantum spin liquids on the pyrochlore lattice: application to Ce$_2$Zr$_2$O$_7$

Crystal-field states and defect levels in candidate quantum spin ice Ce2Hf2O7

Ultrasound detection of emergent photons in generic quantum spin ice