Related papers: Estimating phase transition of perturbed J1-J2 Heisenberg quantum chain in mixtures of ground and first excited states

Estimating phase transition of perturbed J1-J2 Heisenberg quantum chain in mixtures of ground and first excited states

URL: http://arxiv.org/abs/2211.00623v2
Date: Fri, 15 Dec 2023 10:02:02 GMT
Title: Estimating phase transition of perturbed J1-J2 Heisenberg quantum chain in mixtures of ground and first excited states
Authors: Sayan Mondal, George Biswas, Ahana Ghoshal, Anindya Biswas, Ujjwal Sen
Abstract summary: We show that the nearest neighbour entanglement in a mixture of ground and first excited states - a subjacent state - of the J1-J2 Heisenberg quantum spin chain can be used as an order parameter. We study the effectiveness of the order parameter for varying relative mixing probabilities between the ground and first excited states in the subjacent state for different system sizes.
Score: 0.7499722271664147
License: http://arxiv.org/licenses/nonexclusive-distrib/1.0/
Abstract: We show that the nearest neighbour entanglement in a mixture of ground and first excited states - a subjacent state - of the J1-J2 Heisenberg quantum spin chain can be used as an order parameter to detect the phase transition of the chain from a gapless spin fluid to a gapped dimer phase. We study the effectiveness of the order parameter for varying relative mixing probabilities between the ground and first excited states in the subjacent state for different system sizes, and extrapolate the results to the thermodynamic limit. We observe that the nearest neighbour concurrence can play a role of a good order parameter even if the system is in the ground state, but with a small finite probability of leaking into the first excited state. Moreover, we apply the order parameter of the subjacent state to investigate the response to separate introductions of anisotropy and of glassy disorder on the phase diagram of the model, and analyse the corresponding finite-size scale exponents and the emergent tricritical point in the former case. The anisotropic J1-J2 chain has a richer phase diagram which is also clearly visible by using the same order parameter.

Related papers

Probing phase transition and underlying symmetry breaking via entanglement entropy scanning [5.35248594987918]
Using entanglement entropy (EE) to probe the intrinsic physics of the novel phases and phase transitions in quantum many-body systems is an important but challenging topic in condensed matter physics. Thanks to our newly developed bipartite-reweight-annealing algorithm, we can systematically study EE behaviors near both first and second-order phase transition points of two-dimensional strongly correlated systems.
arXiv Detail & Related papers (2024-09-16T02:34:36Z)
Probing quantum floating phases in Rydberg atom arrays [61.242961328078245]
We experimentally observe the emergence of the quantum floating phase in 92 neutral-atom qubits. The site-resolved measurement reveals the formation of domain walls within the commensurate ordered phase. As the experimental system sizes increase, we show that the wave vectors approach a continuum of values incommensurate with the lattice.
arXiv Detail & Related papers (2024-01-16T03:26:36Z)
Entanglement phase transition due to reciprocity breaking without measurement or post-selection [59.63862802533879]
EPT occurs for a system undergoing purely unitary evolution. We analytically derive the entanglement entropy out of and at the critical point for the $l=1$ and $l/N ll 1$ case.
arXiv Detail & Related papers (2023-08-28T14:28:59Z)
Controlling qubit-oscillator systems using linear parameter sweeps [0.23999111269325263]
We investigate the dynamics of a qubit-oscillator system under the influence of a linear sweep of system parameters. In the first case, we consider sweeping the parameters between the regime of a weakly correlated ground state and the regime of a strongly correlated ground state. We find a qualitative asymmetry in the dynamics between the cases of a normal-to-superradiant and superradiant-to-normal quench.
arXiv Detail & Related papers (2023-03-17T08:39:12Z)
Geometric phases along quantum trajectories [58.720142291102135]
We study the distribution function of geometric phases in monitored quantum systems. For the single trajectory exhibiting no quantum jumps, a topological transition in the phase acquired after a cycle. For the same parameters, the density matrix does not show any interference.
arXiv Detail & Related papers (2023-01-10T22:05:18Z)
Accessing the topological Mott insulator in cold atom quantum simulators with realistic Rydberg dressing [58.720142291102135]
We investigate a realistic scenario for the quantum simulation of such systems using cold Rydberg-dressed atoms in optical lattices. We perform a detailed analysis of the phase diagram at half- and incommensurate fillings, in the mean-field approximation. We furthermore study the stability of the phases with respect to temperature within the mean-field approximation.
arXiv Detail & Related papers (2022-03-28T14:55:28Z)
Shared purity and concurrence of a mixture of ground and low-lying excited states as indicators of quantum phase transitions [0.0]
We show that shared purity is as effective as concurrence in indicating quantum phase transitions. We find diverging exponents for the order parameters near the transitions in odd- and even-sized systems. It is plausible that the divergence is related to a M"obius strip-like boundary condition required for odd-sized systems.
arXiv Detail & Related papers (2022-02-07T16:38:07Z)
Phase diagram of Rydberg-dressed atoms on two-leg square ladders: Coupling supersymmetric conformal field theories on the lattice [52.77024349608834]
We investigate the phase diagram of hard-core bosons in two-leg ladders in the presence of soft-shoulder potentials. We show how the competition between local and non-local terms gives rise to a phase diagram with liquid phases with dominant cluster, spin, and density-wave quasi-long-range ordering.
arXiv Detail & Related papers (2021-12-20T09:46:08Z)
Topological transitions with continuously monitored free fermions [68.8204255655161]
We show the presence of a topological phase transition that is of a different universality class than that observed in stroboscopic projective circuits. We find that this entanglement transition is well identified by a combination of the bipartite entanglement entropy and the topological entanglement entropy.
arXiv Detail & Related papers (2021-12-17T22:01:54Z)
Measurement-induced purification in large-N hybrid Brownian circuits [0.0]
Competition between unitary dynamics that scrambles quantum information non-locally can result in a measurement-induced entanglement phase transition. We study this phenomenon in an analytically tractable all-to-all Brownian hybrid circuit model composed of qubits.
arXiv Detail & Related papers (2021-04-15T18:00:15Z)
Measurement-induced quantum criticality under continuous monitoring [0.0]
We investigate entanglement phase transitions from volume-law to area-law entanglement in a quantum many-body state under continuous position measurement. We find the signatures of the transitions as peak structures in the mutual information as a function of measurement strength. We propose a possible experimental setup to test the predicted entanglement transition based on the subsystem particle-number fluctuations.
arXiv Detail & Related papers (2020-04-24T19:35:28Z)

This list is automatically generated from the titles and abstracts of the papers in this site.