Benedikt Placke scite author profile

Stimulated by the recent implementation of a three-port Hall-effect microwave circulator of Mahoney et al. (MEA), we present model studies of the performance of this device. Our calculations are based on the capacitive-coupling model of Viola and DiVincenzo (VD). Based on conductance data from a typical Hall-bar device obtained from a two-dimensional electron gas (2DEG) in a magnetic field, we numerically solve the coupled field-circuit equations to calculate the expected performance of the circulator, as determined by the S parameters of the device when coupled to 50 ports, as a function of frequency and magnetic field. Above magnetic fields of 1.5 T, for which a typical 2DEG enters the quantum Hall regime (corresponding to a Landau-level filling fraction ν of 20), the Hall angle θ H = tan -1 σ xy /σ xx always remains close to 90°, and the S parameters are close to the analytic predictions of VD for θ H = π/2. As anticipated by VD, MEA find the device to have rather high (k ) impedance, and thus to be extremely mismatched to 50 , requiring the use of impedance matching. We incorporate the lumped matching circuits of MEA in our modeling and confirm that they can produce excellent circulation, although confined to a very small bandwidth. We predict that this bandwidth is significantly improved by working at lower magnetic field when the Landau index is high, e.g. ν = 20, and the impedance mismatch is correspondingly less extreme. Our modeling also confirms the observation of MEA that parasitic port-to-port capacitance can produce very interesting countercirculation effects.

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Critical properties of the Ising model in hyperbolic space

Breuckmann

Placke

Roy

2020

Phys. Rev. E

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The Ising model exhibits qualitatively different properties in hyperbolic space in comparison to its flat space counterpart. Due to the negative curvature, a finite fraction of the total number of spins reside at the boundary of a volume in hyperbolic space. As a result, boundary conditions play an important role even when taking the thermodynamic limit. We investigate the bulk thermodynamic properties of the Ising model in two and three dimensional hyperbolic spaces using Monte Carlo and high and low-temperature series expansion techniques. To extract the true bulk properties of the model in the Monte Carlo computations, we consider the Ising model in hyperbolic space with periodic boundary conditions. We compute the critical exponents and critical temperatures for different tilings of the hyperbolic plane and show that the results are of mean-field nature. We compare our results to the 'asymptotic' limit of tilings of the hyperbolic plane: the Bethe lattice, explaining the relationship between the critical properties of the Ising model on Bethe and hyperbolic lattices. Finally, we analyze the Ising model on three dimensional hyperbolic space using Monte Carlo and high-temperature series expansion. In contrast to recent field theory calculations, which predict a non-mean-field fixed point for the ferromagnetic-paramagnetic phase-transition of the Ising model on three-dimensional hyperbolic space, our computations reveal a mean-field behavior.

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Case for a U(1)π Quantum Spin Liquid Ground State in the Dipole-Octupole Pyrochlore Ce
Smith
¹
,
Benton
²
,
Yahne
³

et al. 2022
Phys. Rev. X
33
1
12
0
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The case for a U(1)$_π$ Quantum Spin Liquid Ground State in the Dipole-Octupole Pyrochlore Ce$_2$Zr$_2$O$_7$

Smith¹,

Benton²,

Yahne³

et al. 2021

Preprint

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Benedikt Placke

A model study of present-day Hall-effect circulators

Critical properties of the Ising model in hyperbolic space

Case for a U(1)π Quantum Spin Liquid Ground State in the Dipole-Octupole Pyrochlore Ce
Smith
¹
,
Benton
²
,
Yahne
³

et al. 2022
Phys. Rev. X
33
1
12
0
View full text Add to dashboard Cite

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

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About

Benedikt Placke

A model study of present-day Hall-effect circulators

Critical properties of the Ising model in hyperbolic space

Case for a U(1)π Quantum Spin Liquid Ground State in the Dipole-Octupole Pyrochlore CeSmith1, Benton2, Yahne3 et al. 2022Phys. Rev. X331120View full textAdd to dashboardCite

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

Contact Info

Product

Resources

About

Case for a U(1)π Quantum Spin Liquid Ground State in the Dipole-Octupole Pyrochlore Ce
Smith
¹
,
Benton
²
,
Yahne
³

et al. 2022
Phys. Rev. X
33
1
12
0
View full text Add to dashboard Cite