2022
DOI: 10.1103/physrevb.106.165107
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Quantum phase transitions in a model Hamiltonian exhibiting entangled simultaneous fermion-pair and exciton condensations

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Cited by 3 publications
(2 citation statements)
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“…There is also an advantage in terms of the unique parameter count (in our case, it is just 2 for each unit cell) and also auxiliary Hamiltonians with reduced number of measurables (see Auxillary Hamiltonians with Reduced Measurements section) and reduced number of shots, thereby reducing statistical error. The simplification we used for the reduction in the unique parameter count based on symmetry arguments can be adopted for other larger lattices with other symmetries depending on the topology of the lattice (for example, looks at cylindrical and torus topology out of many) and also for simulating correlated states in other problems like exciton condensates , and simultaneous Fermion-exciton condensates that has been recently realized. , …”
Section: Discussionmentioning
confidence: 72%
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“…There is also an advantage in terms of the unique parameter count (in our case, it is just 2 for each unit cell) and also auxiliary Hamiltonians with reduced number of measurables (see Auxillary Hamiltonians with Reduced Measurements section) and reduced number of shots, thereby reducing statistical error. The simplification we used for the reduction in the unique parameter count based on symmetry arguments can be adopted for other larger lattices with other symmetries depending on the topology of the lattice (for example, looks at cylindrical and torus topology out of many) and also for simulating correlated states in other problems like exciton condensates , and simultaneous Fermion-exciton condensates that has been recently realized. , …”
Section: Discussionmentioning
confidence: 72%
“…The simplification we used for the reduction in the unique parameter count based on symmetry arguments can be adopted for other larger lattices with other symmetries depending on the topology of the lattice (for example, 42 looks at cylindrical and torus topology out of many) and also for simulating correlated states in other problems like exciton condensates 56,57 and simultaneous Fermion-exciton condensates that has been recently realized. 58,59 Since our method entails preparing RVBs in real quantum devices with high fidelity, this holds significance across multiple areas of physics and chemistry, even beyond the domain of quantum spin liquids. This is because the ground-state preparation carried out in this paper would serve as a starting step for various studies one could conduct on systems that support RVBs as their ground states and be an impetus for areas in physical chemistry wherein they feature extensively.…”
Section: ■ Conclusionmentioning
confidence: 99%