Competing dimerization patterns in the spin-1/2 fully frustrated bilayer
ORAL
Abstract
We investigate the phase diagram of the Heisenberg model on the
fully-frustrated bilayer (FFB) lattice with an additional explicit dimerization
parallel to the layers. The original FFB has proven to be an important
sign-free simulatable reference system to understand the singlet-triplet phase
fully-frustrated bilayer (FFB) lattice with an additional explicit dimerization
parallel to the layers. The original FFB has proven to be an important
sign-free simulatable reference system to understand the singlet-triplet phase
transitions of frustrated dimer magnets recently measured in SrCu2(BO3)2 [Larrea Jiménez et al., Nature 592, 370–375 (2021)].
Adding an intralayer dimerization introduces a new tendency to form an intralayer
singlet pattern into the model which is incompatible with the original interlayer
singlet phase, resulting in different adjacent phase transitions. We classify this
new phase diagram and study the fate of the finite temperature critical point
as well as a possible quantum critical end point in this scenario.
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Presenters
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Lukas Weber
RWTH Aachen University
Authors
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Lukas Weber
RWTH Aachen University
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Frederic Mila
Ecole Polytechnique Federale de Lausanne
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Stefan Wessel
RWTH Aachen University